diff --git "a/all_questions_with_audio.json" "b/all_questions_with_audio.json" new file mode 100644--- /dev/null +++ "b/all_questions_with_audio.json" @@ -0,0 +1,28908 @@ +{ + "questions": [ + { + "speaker": "question", + "message": "Define what a projectile is and what projectile motion refers to.", + "criteria": [ + "Answer must define projectile and projectile motion.", + "Answer must mention gravity as the sole influence on the object." + ], + "children": [ + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object that is thrown or projected into the air and is only subject to the force of gravity. Projectile motion is the specific type of motion that a projectile undergoes, following a curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, okay, so a projectile is like, any object that's just moving through the air, like if you throw a ball or something. And then projectile motion is the path that object takes while it's flying.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Your definition of a projectile is mostly accurate, but it is incomplete. Your definition of projectile motion is also incomplete.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_005.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Hmm, okay. So a projectile is an object in the air, but only gravity acts on it after it's launched? Not like, pushing itself. And projectile motion is the curved path it follows because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. A projectile is an object upon which the only force acting is gravity. Projectile motion refers to the curved path, or trajectory, that a projectile follows due to the influence of gravity.\n\nNow, let's consider the forces involved. What force primarily acts on a projectile after it has been launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_006.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_007.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_004.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so a projectile is an object that's launched into the air and then its only force acting on it is gravity. And projectile motion is the path that object takes through the air, like a curved arc. It's neat how the horizontal velocity stays constant while gravity only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_009.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_010.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_008.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure about that one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of an object moving through the air solely under the influence of gravity after being launched or thrown.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_012.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh... okay, so, a projectile would be like, the object itself, if it's flying through the air, and gravity is the only thing pulling on it, like after it's thrown. And projectile motion... that would be, um, the way it moves, that whole path it takes. Is that right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. A projectile is indeed an object upon which the only force acting is gravity. Projectile motion refers to the motion of such an object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_013.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_014.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_011.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so a projectile is pretty much any object that's launched or thrown into the air, and then the only thing really affecting it is gravity. And projectile motion is just the curved path that object takes as it flies through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "That is a good definition for both terms.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_016.wav?download=true" + }, + { + "speaker": "student_5", + "message": "Okay, so there are two main parts: the horizontal motion and the vertical motion. The horizontal part stays at a constant speed, like, it doesn't change unless something else pushes it. But the vertical part, that's where gravity makes it speed up downwards. And the key thing is, they act totally independent of each other even though they're happening at the same time to make that curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified the two independent components of projectile motion and how gravity affects only the vertical component, while the horizontal component remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_017.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_018.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_015.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of an object that is thrown or launched into the air and the path it follows under the influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_020.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um, so a projectile is like, an object that gets thrown or launched into the air. And projectile motion is the path it follows 'cause of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_021.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_022.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_019.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So a projectile is like... something you throw or shoot, and it's flying through the air, I guess? And projectile motion is how it moves, like the curved path it takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Your definition of a projectile is partially correct. To be more precise, what is the only force acting on a projectile once it has been launched and is in motion, assuming ideal conditions.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_024.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_025.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_023.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I... I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of an object that is thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_027.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Okay, so a projectile is like, the thing you throw or launch. And projectile motion is how it moves through the air after that?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good Job. Now, elaborate on what forces act upon a projectile once it is in motion, assuming no air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_028.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_029.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_026.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "A projectile is like something that gets launched, you know? And projectile motion is just how it moves through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_001.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You have a basic understanding of what a projectile is and what projectile motion entails, but the definitions lack scientific precision regarding the forces involved and the characteristic path.\n\nOkay, that's a good start. Let's refine your answer to ensure it's scientifically accurate.\n\nFirst, let's focus on the definition of a projectile. What is the primary force acting on a projectile once it has been launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_031.wav?download=true" + }, + { + "speaker": "student_9", + "message": "It's like, gravity? Yeah, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_002.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_032.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_033.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_030.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object launched or thrown into the air that is only affected by gravity. Projectile motion is the specific path this object takes, which is usually a curved line or parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_002.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start, you're right about projectile motion being the path of the object. For the definition of a projectile, you mentioned it's only affected by gravity. Think of another external force that we often consider negligible when analyzing projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_002.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_001.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so a projectile is pretty much any object that's been thrown or launched into the air. And projectile motion is just about how that object moves once it's up there, like, its whole path through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You've got a good start on what a projectile is! It is indeed an object thrown or launched into the air. To make the definition more precise, remember that only one significant force acts on it once it's in motion, assuming we ignore air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_005.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh, okay, so for a projectile, it's an object that's thrown or launched, but the key thing is that the only big force acting on it after that is gravity, if we're not thinking about air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_004.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. That's a perfect definition of a projectile! Now, let's move on to the second part of the question. What does projectile motion refer to.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_006.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_007.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_004.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can definitely explain this! A projectile is any object that's thrown or launched into the air and then moves only under the influence of gravity. And projectile motion is the specific, curved path that object follows once it's launched, you know, that parabolic shape, while it's only being affected by gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_002.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's a perfect explanation for both a projectile and projectile motion. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_009.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_010.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_008.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that a projectile is an object upon which the only force acting is gravity. Projectile motion is the motion of that object. What does this tell you about what a projectile is and what projectile motion refers to.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_012.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so, a projectile is, like, an object where only gravity is acting on it, and projectile motion is just, like, what that object does when it moves.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_004.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_013.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_014.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_011.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, this is cool! So, a projectile is basically any object that's tossed or launched into the air, and the only force acting on it is gravity, once it's left the hand or launcher. And projectile motion is the specific path that object follows, which is always a curved one, like a parabola, because gravity pulls it down while it's also moving forward.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your definition of both a projectile and projectile motion is accurate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_016.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_017.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_015.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that a projectile is any object thrown or launched into the air, and projectile motion is the path that object follows due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_019.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Okay, so a projectile is just an object thrown into the air. And projectile motion is the path it takes because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_004.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_020.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_021.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_018.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... a projectile is like, anything that gets thrown, right? Like a rock you toss.\n\nAnd projectile motion... that's just, how it kinda flies through the air, after you throw it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_002.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start. You're on the right track with both definitions, but let's make them a bit more precise.\n\nLet's first refine the definition of a projectile. What's a key characteristic of an object after it's thrown or launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_023.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_024.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_022.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of an object thrown or launched into the air, and remember that projectile motion describes the path it follows. Try to define them based on that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_026.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. A projectile is an object like, thrown or launched into the air. And projectile motion is the path that object follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_004.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_027.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_028.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_025.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so a projectile is just, like, an object that's, uh, thrown. And projectile motion is how that object, um, moves, like, through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_003.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start. You're on the right track, but let's refine the definition of a projectile a bit more.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_030.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_031.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_029.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object launched into the air that is only acted upon by gravity once it's in motion. Projectile motion is the curved path that object follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_003.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_002.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_001.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so a projectile is like, anything that gets thrown or launched into the air, you know? And then projectile motion is just the path it follows while it's up there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your definition of a projectile is good. Your definition of projectile motion is partially correct, but it's missing a key detail about the forces acting on the object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_004.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "A projectile is any object that's thrown or launched into the air and is only affected by gravity after it's been given an initial push. Projectile motion is then the path that object takes through the air, kind of like an arch.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_003.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. A projectile is an object upon which the only force acting is gravity. Projectile motion is the motion of an object thrown or projected into the air, subject to only the acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_008.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_007.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "I… um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of an object that is launched or thrown into the air, and consider the path it takes under the influence of gravity alone.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… so, a projectile would be like, an object that's thrown or launched, and it's only really affected by gravity. And projectile motion is, like, the path that object takes through the air?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_006.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_012.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_010.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so a projectile is basically any object that gets thrown or launched into the air. And projectile motion is how that object moves through the air, but only because of gravity pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_004.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_015.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_016.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_014.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that a projectile is an object thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_018.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Hmm a projectile is an object thrown or launched into the air then. I don't know about projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_006.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Projectile motion describes the path of a projectile under the influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_019.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_017.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "A projectile is like anything that gets thrown or launched through the air. And projectile motion is... um, just the way it flies, its path, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_003.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your definition of a projectile is close, but it's missing a key detail about the forces acting on it.\n\nThink of the primary force acting on a projectile once it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_021.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Oh, right. So, a projectile is something that's only really affected by gravity once it's launched? Like, nothing else pushing or pulling it much.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_004.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_022.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_023.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_020.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, teacher, I just… I don’t know. It’s hard to just say it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of an object that is thrown or launched into the air, and remember that its movement is primarily influenced by one force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_025.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Oh! So a projectile is like, anything that gets thrown or launched? And projectile motion is just how it moves through the air, but only because of that one force, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_006.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_026.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_027.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_024.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so a projectile is just, like, anything that gets launched. And projectile motion is just how it, um, moves through the air. Yeah. That's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_004.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your definition of a projectile is a bit broad. Think of the only force acting on it after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_029.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Right, so it's like something that's launched, and then only gravity is, like, affecting it. And its motion is still how it goes through the air, I guess. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_005.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good job on defining a projectile. Now, think of the specific path that an object under projectile motion follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_030.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_031.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_028.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object launched into the air that is only affected by gravity. Projectile motion is the curved path that object follows as it moves through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_004.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_002.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_001.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm okay. So a projectile is basically anything that gets thrown or launched into the air. And projectile motion is just the path that thing takes while it's flying.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_006.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct. A projectile is an object upon which the only force acting is gravity. Projectile motion is the motion of an object thrown or projected into the air, subject to only the acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_005.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_004.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so a projectile is an object that's launched into the air, and once it's released, the only significant force acting on it is gravity. And then, projectile motion is the specific curved path that projectile travels through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_004.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_008.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_007.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_007.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of an object that is thrown or launched into the air and is only affected by gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, so, like, a projectile is something that's thrown or launched into the air, and projectile motion is when it's moving but only gravity is affecting it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_008.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_012.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_010.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so a projectile is an object that's launched or thrown into the air, like a basketball shot. And projectile motion is the curved path it takes as it flies through the air, with just gravity pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_005.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_015.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_016.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_014.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_007.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of an object moving through the air only under the influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_018.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, it's like an object moving through the air just with gravity. And the motion is, like, that path it takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_008.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "A projectile is any object that is thrown or launched into the air and is only subject to the force of gravity. Projectile motion refers to the path such an object takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_019.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_017.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "A projectile is like a rock you throw... or a ball. And projectile motion is its path after you throw it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_005.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your definition of a projectile is partially correct, as are your examples. However, your definition is incomplete for both projectile and projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_021.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_022.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_020.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like… throw something? I feel like I'd get it better if we just threw a ball around.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_007.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of an object thrown or projected into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_024.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Okay, so a projectile is an object that gets thrown or projected into the air. And projectile motion is just the way it moves then? Can we seriously just try it? I need to move.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_008.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good job. Now, what defines projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_025.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_026.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_023.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so a projectile is just, like, an object that gets thrown or launched. And projectile motion, that's just how it moves, you know, after it's in the air. That's pretty much it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_006.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer for projectile motion is incomplete. Remember that in projectile motion, the object is only under the influence of one force. Try to imagine what force is always acting on an object in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_028.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, right. So it's like, just moving under the influence of gravity then. Yeah, that's what projectile motion is, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_007.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_029.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_030.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_027.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is an object launched into the air that is only under the influence of gravity. Projectile motion is the two-dimensional movement of that object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_005.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_002.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_001.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, okay. So, a projectile is basically anything that gets thrown or launched into the air. And projectile motion is just about how that thing moves through the air in a curved path because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_007.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! Your definition of a projectile and projectile motion is correct.\n\nNow, let's move on to the next question. Can you tell me what the only force acting on a projectile is after it has been launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_005.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_004.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, a projectile is an object that's been launched or thrown into the air, and once it's launched, the only significant force acting on it is gravity. Projectile motion then refers to the curved path that object follows through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_005.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's a very accurate definition of both a projectile and projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_008.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_007.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Oh, um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_009.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries! Let's try to break it down. Think of an object thrown or launched into the air. What would you call such an object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it like, a projectile?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_010.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! A projectile is indeed an object thrown or launched into the air. Now, can you define what projectile motion refers to, given what you just said about a projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_012.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_010.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so a projectile is an object that's thrown or launched into the air, and then the only force acting on it is gravity. And projectile motion is the curved path that object follows through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_006.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's a perfect definition for both.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_015.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_016.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_014.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_009.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of an object that is thrown or launched into the air. What do we call such an object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_018.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh a projectile is like an object that's thrown or launched. I still don't really know about the motion thing though.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_010.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job defining what a projectile is! Now, let's think about \"projectile motion.\" Remember that motion refers to how an object moves. What do you think \"projectile motion\" means in the context of an object that's been launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_019.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_020.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_017.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. A projectile... is something that gets like, thrown or launched, and then it's just moving only because of gravity, usually. And projectile motion... that's just the path it makes, like the curve in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_006.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very good start! You're right that a projectile is an object thrown or launched into the air, and projectile motion describes its path.\n\n\n\nDefine what a projectile is and what projectile motion refers to.\n\n\n1. What is the only force acting on a projectile (ignoring air resistance).", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_022.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_023.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_021.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher. I'm kinda stuck on this one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_009.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of an object that is thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_025.wav?download=true" + }, + { + "speaker": "student_8", + "message": "So, like, a projectile is something that's thrown or launched? And projectile motion is how it moves then?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_010.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very good start!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_026.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_024.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so a projectile is just like, something that gets thrown or like, shot? And projectile motion is how it moves through the air after that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_008.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a good start! You're on the right track. Can you elaborate a bit more on what forces are acting on that object once it's in the air, especially after it's been thrown or shot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_028.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_029.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_027.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object that is thrown or launched into the air and is only acted upon by the force of gravity. Projectile motion is the curved path that object follows through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_006.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on for both projectile and projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_002.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_001.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay so a projectile is kinda like anything thrown or shot into the air, you know? And projectile motion is just the way that object moves through the air, like its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_008.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "That's spot on! Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_005.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_004.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, I can define those! A projectile is any object that is thrown or launched into the air and then moves only under the influence of gravity. And projectile motion refers to the specific curved path, usually parabolic, that a projectile follows as it travels through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_006.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_008.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_007.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_011.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of an object that's launched or thrown into the air and then moves only under the influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so a projectile is like, an object that's launched or thrown? And projectile motion is how it moves just because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_012.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_012.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_010.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, a projectile is basically any object that's thrown or launched into the air and then just moves because of gravity. And projectile motion is the specific curved path that object takes through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_007.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice job! That's totally on point.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_015.wav?download=true" + }, + { + "speaker": "student_5", + "message": "Oh, cool! Thanks!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_008.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "That's totally on point.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_016.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_014.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "Um, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_011.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, no stress! Let's break it down. Think of an object that's launched or thrown into the air and what kind of path it traces, being influenced mostly by Earth's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_018.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_019.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_017.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... a projectile is like... an object that's thrown or launched. And projectile motion is... how it moves through the air after that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_007.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good start! You're on the right track with both.\n\nThink of the primary force that acts on a projectile once it's launched and is in the air, ignoring air resistance. What force is always pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_021.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_022.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_020.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_011.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's break it down! Think of an object thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_024.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, fine. So it's like, an object you throw or launch? And the motion is just it moving through the air after that, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_012.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're totally on point with what a projectile is! That's it! For projectile motion, you're close, but you're missing a super important detail about what's affecting its movement.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_025.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_023.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay so, a projectile is like, anything that gets like, thrown or launched. And then projectile motion is just, you know, how it moves after that, through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_009.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're totally on the right track! You've got the main idea down. Let's refine it a bit to make it super precise.\n\nWhat crucial force acts on a projectile once it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_027.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_028.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_026.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object that is thrown or launched into the air and is only affected by gravity after its initial launch. Projectile motion is the path or trajectory that object follows through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_007.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_002.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_001.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, okay! So a projectile is basically anything that gets thrown or launched through the air. And projectile motion is the path that it follows while it's in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_009.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "You've correctly identified that a projectile is an object thrown or launched through the air, and that projectile motion is its path. However, your definitions are incomplete. Remember that in physics, when we talk about a projectile, we usually refer to an object that is only under the influence of one specific force once it has been launched into the air. Please try to refine your definition of what a projectile is and what projectile motion refers to.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_005.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_004.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so a projectile is an object that gets thrown or launched into the air and then moves only under the influence of gravity. And projectile motion is the path that object takes through the air, which is usually a curved path, because gravity is acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_007.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "That is a very good definition. You are correct.\n\nNow, describe the path or trajectory of a projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_008.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_007.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I... I don't really know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_013.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of an object thrown or launched into the air and the path it follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh... uhm... so, a projectile is like... the object, like if you throw a ball? And then the projectile motion is, like, the curving path it takes through the air?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_014.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_012.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_010.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "Alright, so a projectile is basically any object that's launched or thrown into the air and then just moves on its own. And projectile motion? That's the specific curved path that object takes through the air, mostly because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_009.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. A projectile is an object upon which the only force acting is gravity, and projectile motion describes the path such an object takes.\n\nCan you describe the primary force acting on a projectile during its flight, assuming negligible air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_015.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_016.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_014.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_012.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of an object that is launched or thrown, and consider how its movement is described once it's in the air under the sole influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_018.wav?download=true" + }, + { + "speaker": "student_6", + "message": "A projectile is like an object that's thrown. And projectile motion is how it moves in the air because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_013.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. A projectile is indeed an object that is launched or thrown into the air, and projectile motion describes its movement solely under the influence of gravity.\n\nIdentify the two primary forces acting on a projectile during its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_019.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_020.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_017.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "A projectile is like… something you throw. And projectile motion is the way it flies through the air, I guess?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_008.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your description is on the right track but lacks scientific precision.\n\nThink of the primary force acting on the object once it's in motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_022.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_023.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_021.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. I just... my brain's totally blank right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_013.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that a projectile is any object thrown or launched into the air and projectile motion describes the path this object follows under the influence of gravity alone.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_025.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Okay, so a projectile is like, anything you throw or launch into the air, right? And projectile motion is just the path that thing takes 'cause of gravity. Ugh.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_014.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_026.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_027.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_024.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "A projectile? Oh, that’s like, something that flies through the air, right? And projectile motion is just, you know, how it moves. It’s a lot to think about.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_010.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your definition of a projectile is somewhat on the right track, but it needs to be more precise. And for projectile motion, \"how it moves\" is too general.\n\nThink of the primary force acting on an object once it has been launched or thrown and is in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_029.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_030.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_028.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_1", + "message": "A projectile is any object that is thrown or launched into the air and then moves only under the influence of gravity. Projectile motion is the curved path this object follows through space.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_008.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! That's a perfect explanation.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_002.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_003.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_001.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, a projectile... I think that's like, anything you launch or throw into the air. And projectile motion would be the whole path it takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_010.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a good start! You've captured the essence of both terms. Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_005.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_006.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_004.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, a projectile is an object that's thrown or launched and is only affected by gravity once it's in the air. And projectile motion is the specific curved path that object follows because of that gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_008.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a fantastic start! You've accurately defined both a projectile and what projectile motion entails.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_008.wav?download=true" + }, + { + "speaker": "student_3", + "message": "That's great to hear! I spent some time really thinking about how to phrase that clearly.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_009.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "You've nailed the first part! Now, let's delve a bit deeper into the journey of a projectile.\n\nCan you describe the forces acting on a projectile during its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_009.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_007.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh... I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_015.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of an object launched into the air, like a basketball shot or a thrown stone. What do we call that object while it's in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_011.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... so, like, the basketball... or the stone... that's the projectile, right? And then projectile motion is like... how it moves through the air?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_016.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job on defining what a projectile is! You're also on the right track with projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_012.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_013.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_010.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_5", + "message": "A projectile is like any object that gets thrown or launched into the air. And projectile motion is the curved path it follows after it's been launched, usually just with gravity acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_010.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a very good start! You've captured the essence of both terms beautifully.\n\nNow, let's delve a little deeper. When we talk about this fascinating journey of a projectile through the air, it's actually made up of two distinct \"stories\" happening at the same time.\n\nSo, tell me, what are the two components of projectile motion, and how do they behave independently of each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_015.wav?download=true" + }, + { + "speaker": "student_5", + "message": "Okay, I get it! There's the horizontal motion and the vertical motion. The horizontal one stays constant, like, its speed doesn't change on its own. But the vertical one is always changing because of gravity, like it's speeding up or slowing down depending on if it's going up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_011.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's absolutely spot on! You've perfectly described how these two \"stories\" unfold independently.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_016.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_017.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_014.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_014.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that a projectile is any object thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_019.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Okay so a projectile is like, an object that's thrown or launched into the air. And projectile motion is just how it moves after that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_015.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, you've got both parts right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_020.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_021.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_018.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... a projectile is like, something you throw, right? Like a ball? And projectile motion is... when it flies through the air, I guess?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_009.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "You're on the right track with a projectile being something thrown, like a ball, and projectile motion being its flight. However, we need to be a bit more precise. Think of the main force acting on the object after it's launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_023.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_024.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_022.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_8", + "message": "Uh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_015.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of an object that is thrown or launched into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_026.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. So, a projectile is like, something you throw, right? And projectile motion is how it moves through the air?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_016.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "You're on the right track! You've captured the essence of it. Now, remember that a projectile isn't just anything thrown; there's a specific force that acts upon it once it's in the air. Consider what force primarily influences an object once it's launched and in flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_027.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_028.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_025.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Define what a projectile is and what projectile motion refers to.", + "responses": [ + { + "speaker": "student_9", + "message": "A projectile is like, anything that's thrown or like, shot. And projectile motion is just about how that object moves, its path, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_011.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a good start, you're on the right track with both definitions! However, we can make them a bit more precise.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_030.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_031.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_029.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "children": [ + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_009.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_035.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_036.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_034.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so the primary force acting on it after it's launched is just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_011.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_038.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_039.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_037.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary force acting on a projectile after it's launched is gravity. It's the consistent downward pull that shapes its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_010.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good job.\n\nIn which direction does this force act.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_041.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_042.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_040.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_017.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the force that pulls all objects downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_044.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh... um... is it gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_018.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_045.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_046.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_043.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "That would be gravity. It's the main force pulling the projectile downwards once it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_012.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. That is indeed gravity.\nIs this force constant throughout the projectile's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_048.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_049.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_047.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_016.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the invisible force that pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_051.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um...gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_017.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_052.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_053.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_050.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Uh, gravity? Like, it just pulls it down after you throw it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_010.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_055.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_056.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_054.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know that one either.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_017.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the force that constantly pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_058.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, that's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_018.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_059.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_060.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_057.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "It's gravity. It just like, pulls everything down, right? So it just keeps pulling the projectile down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_012.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified gravity and described its effect as pulling the projectile down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_062.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_063.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_061.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_010.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_033.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_034.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_032.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so the main force acting on a projectile once it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_012.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! The primary force acting on a projectile after it's launched is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_036.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_037.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_035.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "Oh, yes, I can explain that. After a projectile is launched, the primary force acting on it is gravity. It's the force that constantly pulls the object downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_011.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! That's right, gravity is the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_039.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_040.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_038.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_019.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that a projectile is an object upon which the only force acting is gravity. What does this tell you about the primary force acting on it after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_042.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so it's... gravity? Because that's the only force, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_020.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_043.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_044.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_041.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "Definitely! After a projectile is launched, the main force acting on it is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_013.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! The main force acting on a projectile after it's launched is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_046.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_047.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_045.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_018.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that this force pulls all objects towards the center of the Earth. What is this force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_049.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_019.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_050.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_051.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_048.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... isn't it just gravity? Like, what pulls it down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_011.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_053.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_054.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_052.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_019.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the force that pulls everything downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_056.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. Is it... gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_020.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_057.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_058.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_055.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Just, um, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_013.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_060.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_061.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_059.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_011.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_033.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_034.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_032.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's just gravity, right? Like, pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_013.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_036.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_037.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_035.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_012.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_039.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_040.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_038.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_021.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know. Think of the force that pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_042.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… it’s gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_022.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_043.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_044.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_041.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "It's just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_014.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_046.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_047.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_045.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_020.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_049.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_050.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_048.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "It's gravity, right? Like we just talked about it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_012.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_052.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_053.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_051.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, it's that gravity thing again, right? Like, it just pulls everything down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_021.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_055.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_056.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_054.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, yeah, it's just gravity, really. That's the main one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_014.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_058.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_059.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_057.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_012.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_032.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_033.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_031.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's gravity, isn't it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_014.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_035.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_036.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_034.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_013.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_038.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_039.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_037.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_023.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the universal force that pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_041.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_024.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_042.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_043.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_040.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's just gravity, right? It's always pulling it downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_015.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_045.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_046.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_044.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_021.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the force that pulls all objects towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_048.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uhm, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_022.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_049.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_050.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_047.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Hmm... is it just gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_013.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_052.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_053.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_051.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like… move? I can't think if I just sit here.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_022.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the force that pulls everything towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_055.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it… gravity? The thing that pulls everything down? Can we just like, feel it? Jump or something?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_023.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_056.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_057.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_054.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, it's just gravity. Like, that's pretty much the main thing affecting it, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_015.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_059.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_060.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_058.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_013.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.\n\nMain Question 2: Can you describe the components of projectile motion, specifically how the horizontal and vertical motions are treated.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_031.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_032.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_030.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, so the main force acting on it after it's launched... I'm pretty sure it's just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_015.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Gravity is indeed the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_034.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_035.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_033.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary force acting on a projectile after it's launched is definitely gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_014.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_037.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_038.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_036.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_025.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that there's a force that always pulls objects towards the ground. What do we call that force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_040.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it... gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_026.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is indeed the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_041.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_042.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_039.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity! That's pretty much the only force after it leaves your hand.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_016.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! That's precisely right.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_044.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_045.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_043.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_023.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of the force that always pulls objects downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_047.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_024.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_048.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_049.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_046.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just... gravity. It's always there, pulling things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_014.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_051.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_052.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_050.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, a primary force? I really don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_024.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the force that pulls everything towards the Earth's center.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_054.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Oh, so it's gravity? That force that pulls everything down? Is that it? Ugh, this is hard.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_025.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_055.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_056.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_053.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, uh, it's like, gravity, for sure. That's the main one, right? And then, you know, air might be there too.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_016.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is indeed the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_058.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_059.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_057.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_014.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! Gravity is indeed the primary force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_030.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_031.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_029.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, after it's launched? I think the main force acting on it is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_016.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You got it.\n\nAlright, so what direction does this force act in.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_033.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_034.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_032.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "Yes, I can! The primary force acting on a projectile after it's launched is gravity, or the force of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_015.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! That's absolutely correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_036.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_037.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_035.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "I'm not sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_027.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of the force that pulls everything downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_039.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_028.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_040.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_041.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_038.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's just gravity, right? It's the force that always pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_017.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_043.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_044.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_042.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_025.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries! Think of the main force that pulls everything down towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_046.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_026.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_047.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_048.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_045.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's gravity. The force that pulls everything down. It's kinda a lot to think about right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_015.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally it. Gravity is the primary force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_050.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_051.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_049.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, it's... gravity? That thing that pulls everything down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_026.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_053.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_054.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_052.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Yeah, that's just, like, the force that always pulls things down, you know? The one that's always there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_017.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're thinking along the right lines, for sure! What's the name of that specific force that always pulls things down towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_056.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_057.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_055.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_015.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_032.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_033.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_031.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's gravity, right? Like, after something's thrown, the main thing pulling it down is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_017.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_035.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_036.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_034.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary force acting on a projectile after it's launched is gravity, pulling it downwards. Air resistance can also affect it, but gravity is the main force that defines projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_016.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_038.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_039.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_037.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_029.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that always pulls objects downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_041.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_030.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_042.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_043.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_040.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's gravity, isn't it? It's the only thing really pulling it down after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_018.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is indeed the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_045.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_046.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_044.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_027.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is indeed the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_048.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_049.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_047.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh... isn't it just gravity? Like, what pulls everything down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_016.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_051.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_052.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_050.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... stuck.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_027.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that pulls all objects towards the center of the Earth. What is that force called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_054.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity. It's just gravity, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_028.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_055.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_056.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_053.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "The primary force? Oh, that’s, uh, just the one that always pulls stuff down. It's always there, you know? There's just so much to remember.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_018.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_058.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_059.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_057.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary force acting on a projectile after it's launched is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_016.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_033.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_034.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_032.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I'd say the main force acting on it would be gravity, pulling it down towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_018.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! That's precisely right.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_036.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_037.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_035.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, the primary force acting on a projectile once it's launched is gravity. It's always pulling the object downwards towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_017.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is indeed the primary force, constantly pulling it downwards.\n\nAre there any other forces that might act on a projectile, and if so, when are they significant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_039.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_040.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_038.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_031.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that invisible force that pulls everything towards the Earth's center.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_042.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it... gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_032.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_043.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_044.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_041.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's gravity! It's what pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_019.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! You've hit the nail on the head.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_046.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_047.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_045.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_028.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_049.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_050.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_048.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's gravity, right? The thing that pulls stuff down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_017.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is indeed the primary force pulling it downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_052.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_053.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_051.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I still don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_029.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the force that causes objects to fall downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_055.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay, it's like, the thing that makes everything fall, right? Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_030.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_056.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_057.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_054.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Can you describe the primary force acting on a projectile after it's launched?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, I think it's just gravity. Like, the thing that pulls stuff down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_019.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've hit the nail on the head.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_059.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_060.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_058.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "What is the curved path followed by a projectile called?", + "children": [ + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_017.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_065.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_066.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_064.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's called the trajectory, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_019.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_068.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_069.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_067.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "The curved path followed by a projectile is called its trajectory. It's fascinating how different initial speeds and angles can create such varied trajectories, all governed by that same force of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_018.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Nice work.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_071.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_072.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_070.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_033.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the specific term used to describe the path an object takes through space.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_074.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_034.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_075.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_076.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_073.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "That would be its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_020.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. That is called its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_078.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_079.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_077.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_029.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember that this path is a specific type of symmetrical curve that is often encountered in geometry when dealing with quadratic equations.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_081.wav?download=true" + }, + { + "speaker": "student_6", + "message": "A parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_030.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good Job. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_082.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_083.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_080.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Oh, uh... it's like a parabola, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_018.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_085.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_086.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_084.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_031.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the mathematical name for a U-shaped curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_088.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_032.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_089.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_090.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_087.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "It's the... like, the trajectory of it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_020.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_092.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_093.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_091.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_018.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_063.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_064.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_062.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that curved path? It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_020.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. The curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_066.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_067.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_065.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "Oh, I know this one, teacher! It's called a parabolic path, or a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_019.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! It's indeed called a parabolic path or a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_069.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_070.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_068.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_035.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the specific path that a thrown object creates in the air. What is that path called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_072.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, the path… it’s like a… a trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_036.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_073.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_074.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_071.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "It's called a parabola!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_021.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_076.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_077.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_075.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_031.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the shape formed by a thrown ball as it flies through the air. What is that specific curved shape called in physics.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_079.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_032.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_080.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_081.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_078.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Uh... isn't it a parabola? Like that arch shape it makes?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_019.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_083.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_084.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_082.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_033.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the specific shape that a ball or an arrow makes as it flies through the air before coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_086.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. Is it... a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_034.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_087.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_088.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_085.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "It's, um, a parabola. Yeah, a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_021.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_090.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_091.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_089.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "It's called projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_019.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_061.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_062.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_060.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Is it like, a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_021.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_064.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_065.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_063.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "That's called the trajectory. It's like the path it follows through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_020.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The curved path followed by a projectile is called its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_067.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_068.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_066.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_037.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of the mathematical shape that describes the path of a thrown ball.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_070.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… is it a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_038.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_071.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_072.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_069.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's called a parabola! It's that perfect curve it makes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_022.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_074.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_075.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_073.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_033.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of the shape it makes as it travels through the air. What is that curved line called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_077.wav?download=true" + }, + { + "speaker": "student_6", + "message": "A parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_034.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_078.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_079.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_076.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Um, it's called a parabola, I think?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_020.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_081.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_082.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_080.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_035.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of the common mathematical shape that resembles the path of a thrown ball.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_084.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's that curvy, archy thing, right? Like, a parabola?\n\nPerforming experiments, totally! I need to actually do the stuff.\n\nHands-on activities, for sure! But yeah, sometimes talking it out with other people helps too.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_036.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_085.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_086.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_083.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just that, like, arc shape it makes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_022.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "That's a good description of its shape. However, there's a specific scientific term for that curved path. Think of the mathematical name for that specific curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_088.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, yeah, it's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_023.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_089.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_090.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_087.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "That curved path is called a trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_020.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_062.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_063.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_061.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm it's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_022.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_065.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_066.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_064.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "It's called projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_021.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_068.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_069.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_067.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_039.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the shape formed when water arcs out of a fountain.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_071.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_040.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_072.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_073.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_070.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's called a parabola! It's like a big arc.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_023.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_075.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_076.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_074.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_035.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the specific term used in physics for the path an object follows through space.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_078.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, is it like... trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_036.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_079.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_080.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_077.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's that curve shape... like an arc?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_021.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is close, but \"arc\" is not the precise term we use in physics. Think of the specific mathematical shape that describes the path of a projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_082.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Like a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_022.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_083.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_084.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_081.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, draw it out or something? I feel like I'd get it better if I could actually see it move.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_037.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the specific geometric shape that path often resembles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_086.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it like a… parabola? Can we just like, throw something and watch it make the shape? I need to see it in action.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_038.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_087.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_088.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_085.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, that's the parabola, right? Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_024.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_090.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_091.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_089.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "The curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_021.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_061.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_062.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_060.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that curved path? I'm pretty sure it's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_023.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. A parabola is indeed the curved path followed by a projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_064.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_065.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_063.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "That curved path is called its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_022.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! That's called its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_067.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_068.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_066.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_041.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries! Let's think about this. Think of the specific shape or path an object takes when it flies through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_070.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it like... a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_042.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_071.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_072.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_069.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "That's projectile motion!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_024.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's precisely what it's called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_074.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_075.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_073.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_037.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of the shape of the path of an object thrown upwards and then coming back down. What kind of curve does it make.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_077.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, it's a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_038.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_078.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_079.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_076.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's called the trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_023.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Nice work, that's correct! That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_081.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_082.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_080.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. What's it called?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_039.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the shape formed when you throw a ball, like a basketball shot or a thrown rock.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_084.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, like an arc? Or... a parabola? Is that it? Like when I shoot a basketball? This is taking forever, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_040.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct, it's called a parabola!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_085.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_086.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_083.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that's a parabola. Yeah, that's what it's called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_025.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_088.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_089.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_087.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "It's called projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_022.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Hmm, you're close! Projectile motion is what we call the movement itself. But what do we call the shape of that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_059.wav?download=true" + }, + { + "speaker": "student_1", + "message": "Oh, I see! The shape of the curved path is a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_023.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_060.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_061.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_058.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_024.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_063.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_064.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_062.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "The curved path followed by a projectile is called its trajectory, and it's typically a parabolic shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_023.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_066.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_067.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_065.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_043.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of the specific name for the path something takes when it flies through the air, like a thrown ball.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_069.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, the trajectory, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_044.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_070.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_071.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_068.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "It's called a parabola!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_025.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_073.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_074.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_072.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_039.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No stress, fam! Think of the specific geometric shape that looks like an arc or a U-shape, which is what a projectile's path forms.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_076.wav?download=true" + }, + { + "speaker": "student_6", + "message": "A parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_040.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_077.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_078.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_075.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's a parabola. Like... that curved shape it makes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_024.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_080.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_081.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_079.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_041.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's nail this! Think of the specific mathematical shape that parabolas have.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_083.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_042.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_084.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_085.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_082.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "It's like, the arc it makes?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_026.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're getting warmer! \"Arc\" describes its shape, for sure. What's the specific term we use in physics for that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_087.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, yeah, it's like, the path, you know? The trajectory. That's what it is.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_027.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it – the trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_088.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_089.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_086.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_024.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_061.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_062.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_060.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's called a parabola, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_025.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_064.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_065.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_063.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "It's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_024.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_067.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_068.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_066.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_045.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the specific term used to describe the path of a moving object in physics.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_070.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it trajectory, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_046.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_071.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_072.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_069.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "That's projectile motion!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_026.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_074.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_075.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_073.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "Parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_041.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_077.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_078.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_076.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh... is it like a parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_025.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_080.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_081.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_079.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... gone.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_043.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that the path of a projectile is a specific type of symmetrical curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_083.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's a parabola? Is that it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_044.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_084.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_085.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_082.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that’s just the path it takes, right? The curved one. It’s a lot to remember all these specific names.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_028.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer describes the shape of the path but does not provide the specific term for it.\n\nThink of the shape's name that is often used in mathematics, specifically for parabolas.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_087.wav?download=true" + }, + { + "speaker": "student_9", + "message": "A parabola. Yeah, that’s the word. It’s a lot to remember, these math terms, too.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_029.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_088.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_089.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_086.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_1", + "message": "That path is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_025.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Nice work! That's absolutely right, the curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_062.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_063.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_061.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_026.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good Job! You're absolutely right, it's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_065.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_066.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_064.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_3", + "message": "The curved path followed by a projectile is called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_025.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That curved path is indeed called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_068.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_069.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_067.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_047.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the symmetrical, U-shaped curve that an object traces when thrown.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_071.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... is it... like a parabola, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_048.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_072.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_073.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_070.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_5", + "message": "That's its trajectory!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_027.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_075.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_076.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_074.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_042.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that it's the specific word we use to describe the path an object takes through the air, like the arc a basketball makes when shot towards the hoop.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_078.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_043.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_079.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_080.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_077.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_7", + "message": "It's like... a curve? A special kind of curve? I feel like I know this... but my brain is kinda fuzzy right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_026.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the mathematical shape that looks like a U or an upside-down U, often used to graph quadratic equations.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_082.wav?download=true" + }, + { + "speaker": "student_7", + "message": "A parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_027.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's exactly right, it's called a parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_083.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_084.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_081.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_045.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the shape that path makes, like a specific type of arc or curve that opens downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_086.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay, it's like a parabola? Like when you throw a ball?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_046.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_087.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_088.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_085.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the curved path followed by a projectile called?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that's like, a curve, right? A... parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_030.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_089.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "What force causes a projectile to follow this curved path?", + "children": [ + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity causes it to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_026.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_095.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_096.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_094.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, that's just gravity, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_027.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_098.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_099.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_097.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "The force that causes a projectile to follow its curved path is gravity. It's the constant downward pull that makes it arc.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_026.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_101.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_102.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_100.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_049.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the force that continuously pulls the projectile downwards, causing its path to bend.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_104.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_050.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_105.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_106.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_103.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity again! It's always pulling it down which makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_028.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. Gravity is indeed the force that causes a projectile to follow a curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_108.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_109.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_107.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_044.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_111.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_112.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_110.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's still gravity, isn't it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_028.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_114.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_115.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_113.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_047.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the force that continuously acts downward on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_117.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, that's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_048.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_118.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_119.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_116.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's still gravity, isn't it? It just keeps pulling it down, so it makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_031.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_121.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_122.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_120.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "The force that causes a projectile to follow a curved path is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_027.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_093.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_094.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_092.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "It's gravity that makes it curve like that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_028.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! It is gravity that causes a projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_096.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_097.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_095.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity, teacher! Gravity is the force that pulls it down and makes it follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_027.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! Gravity is indeed the force that causes a projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_099.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_100.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_098.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_051.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the primary force acting on a projectile after it's launched is gravity. What does this tell you about the force that causes its path to curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_102.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, it’s… gravity? Like, because it’s the only force that acts on it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_052.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_103.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_104.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_101.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It pulls it down while it's still moving forward, making it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_029.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's absolutely right. Gravity is the force that causes a projectile to follow its curved, parabolic path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_106.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_107.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_105.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_045.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the force pulling the object downwards is responsible for changing its vertical motion. Try again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_109.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_046.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_110.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_111.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_108.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "Um, is it gravity again? Like, the thing that pulls it down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_029.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_113.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_114.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_112.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_049.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the force that pulls the projectile downwards, causing its path to bend.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_116.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. Is it... gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_050.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_117.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_118.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_115.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's, um, gravity again. Yeah, gravity makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_032.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_120.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_121.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_119.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_028.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_092.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_093.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_091.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Isn't it just gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_029.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_095.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_096.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_094.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "The force that causes it to follow that curved path, the trajectory, is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_028.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The force that causes a projectile to follow this curved path is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_098.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_099.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_097.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_053.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Remember that the primary force you just identified constantly pulls the projectile downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_101.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… it’s gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_054.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_102.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_103.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_100.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity, because it's always pulling it down, which makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_030.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_105.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_106.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_104.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_047.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_108.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_109.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_107.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "It's gravity again, right? That's what makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_030.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_111.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_112.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_110.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_051.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of the force that constantly pulls objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_114.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it’s gravity again, isn’t it? It always comes back to that!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_052.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_115.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_116.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_113.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, it's just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_033.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_118.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_119.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_117.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity causes the projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_029.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_093.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_094.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_092.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity again, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_030.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_096.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_097.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_095.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_029.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_099.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_100.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_098.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_055.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the force that pulls the object downwards, causing its trajectory to bend.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_102.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_056.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_103.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_104.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_101.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's still gravity! It's pulling it down as it moves forward, which makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_031.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_106.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_107.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_105.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_048.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the primary force that constantly pulls the projectile downwards, causing it to deviate from a straight line.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_109.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, isn't it gravity again?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_049.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_110.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_111.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_108.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "Is it... still gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_031.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_113.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_114.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_112.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, watch a video of it or something? I need to see it happen.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_053.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the force that continuously acts on the projectile throughout its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_116.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it… gravity again? Can we just like, throw something and feel it pull it down? I need to actually feel it happen.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_054.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_117.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_118.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_115.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "It's gravity. That's what makes it do that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_034.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_120.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_121.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_119.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "The force that causes a projectile to follow a curved path is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_030.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_091.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_092.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_090.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's definitely gravity again!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_031.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. That's gravity again!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_094.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_095.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_093.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "Gravity is the force that causes a projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_030.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! Gravity is indeed the force that causes a projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_097.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_098.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_096.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_057.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that the force pulling the projectile downwards is what causes its path to bend.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_100.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_058.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "The force that causes a projectile to follow this curved path is gravity. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_101.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_099.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity! That's what pulls it down and makes the path curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_032.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is indeed the force that causes the projectile to follow its curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_103.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_104.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_102.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_050.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Remember that we just discussed the primary force acting on a projectile. What was that force called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_106.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_051.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_107.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_108.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_105.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_032.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_110.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_111.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_109.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. What force? This is so frustrating.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_055.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nRemember that the primary force acting on a projectile causes it to accelerate downwards, leading to its curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_113.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it gravity again? That force that pulls everything down and makes it curve? This is just so frustrating, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_056.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_114.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_115.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_112.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's like, gravity, I think. That's what makes it go that way.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_035.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_117.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_118.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_116.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_031.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! Gravity is indeed the force that causes the curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_091.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_092.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_090.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_032.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's the one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_094.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_095.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_093.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "That's gravity! It's the force that constantly pulls the projectile downwards, causing it to follow that curved, parabolic path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_031.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_097.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_098.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_096.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_059.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Remember that the force you just mentioned, gravity, is always pulling the projectile downwards, causing it to change its direction and follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_100.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_060.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_101.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_102.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_099.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "That would be gravity again! It keeps pulling it down while it's moving forward, which makes it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_033.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_104.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_105.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_103.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_052.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries! Think of the main force that pulls objects towards the Earth, which we just talked about.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_107.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_053.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_108.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_109.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_106.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's... still gravity, isn't it? That's what makes it curve downwards. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_033.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's gravity that causes that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_111.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_112.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_110.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_057.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "OMG, you literally just answered that! You said it was gravity when we talked about the primary force!\n\nThat's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_114.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_058.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_115.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_116.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_113.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, that same force, you know? The one that pulls everything down. That's what makes it, like, curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_036.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're totally right about which force it is! What's the actual name of that force that pulls everything down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_118.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_119.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_117.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity is the force that causes the curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_032.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_091.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_092.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_090.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_033.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_094.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_095.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_093.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "The force that causes a projectile to follow that curved path, the parabola, is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_032.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_097.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_098.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_096.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_061.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that constantly pulls objects towards the Earth, making them accelerate downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_100.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_062.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_101.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_102.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_099.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_034.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_104.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_105.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_103.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_054.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is the force that causes a projectile to follow its curved, parabolic path. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_107.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_108.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_106.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "It's still gravity, right? Like, the same thing that pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_034.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_110.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_111.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_109.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_059.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember the primary force we discussed that acts on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_113.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_060.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_114.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_115.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_112.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that’s just the force that pulls things down, you know? It's always there, making it curve. There's just so much to keep straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_037.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer describes the action of the force, but not its scientific name.\n\nThink of the fundamental force that attracts objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_117.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, that's just, uh, gravity. Yeah, gravity. There's just so much to remember with all these forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_038.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_118.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_119.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_116.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_1", + "message": "The force that causes the projectile to follow a curved path is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_033.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! The force that causes a projectile to follow that curved path is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_091.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_092.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_090.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity. It keeps pulling it down while it's moving forward, making it curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_034.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! It is indeed gravity that causes the projectile to follow that curved path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_094.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_095.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_093.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_3", + "message": "That would be gravity. It's the force that causes it to follow that parabolic path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_033.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is the force that bends its path into that characteristic curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_097.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_098.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_096.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_063.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that the force we just talked about, gravity, is constantly pulling the projectile downwards even as it moves forward.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_100.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... is it... gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_064.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_101.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_102.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_099.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity again! It's the one making it curve downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_035.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_104.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_105.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_103.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_055.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "You've actually answered this question before! Think back to when we talked about the primary force acting on a projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_107.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_056.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right! That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_108.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_109.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_106.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_7", + "message": "It's... gravity again, isn't it? The one that pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_035.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is indeed the force that causes a projectile to follow its curved, parabolic path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_111.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_112.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_110.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_061.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that the force you identified earlier as the primary force acting on a projectile is responsible for its downward acceleration, which shapes its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_114.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity, isn't it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_062.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_115.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_116.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_113.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! A projectile follows a parabolic path.", + "responses": [ + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_118.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What force causes a projectile to follow this curved path?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_119.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Um, it's just like, the same force we talked about before. The one that pulls things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_039.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! It is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_120.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_121.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_117.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "children": [ + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall experiences a constant acceleration downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_034.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "That's correct that an object in free-fall experiences a constant acceleration downwards.\n\nWhat is the approximate magnitude of this acceleration near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_124.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_125.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_123.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an object in free-fall, it's pretty much just gravity acting on it. And its acceleration is constant and always going downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_035.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_127.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_128.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_126.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "An object in free-fall has a constant acceleration directed downwards, which is due to gravity. It's always 9.8 meters per second squared, and that acceleration stays the same, regardless of the object's mass or its initial velocity. It's a fundamental constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_034.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_130.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_131.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_129.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_065.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how gravity affects all objects equally, regardless of their mass, when air resistance is ignored.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_133.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is the acceleration, like, always the same?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_066.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "That is a good start. However, your answer is incomplete. Think of the specific numerical value and the constant direction of this acceleration when air resistance is negligible.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_134.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_132.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for free-fall, the only force acting on the object is gravity. That means its acceleration is always constant and pointing straight downwards, and it's always 9.8 meters per second squared, no matter how fast it's going.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_036.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly described the key characteristics of an object in free-fall regarding its acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_136.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_137.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_135.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_057.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": " You provided an incorrect answer. I will now provide a hint.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_139.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_140.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_138.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, free-fall is like, when something just drops? And it just keeps getting faster, so the acceleration is like, constant, downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_036.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_142.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_143.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_141.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_063.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember that the acceleration due to gravity is approximately constant near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_145.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so, the acceleration is constant, right? Because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_064.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_146.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_147.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_144.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "It's like, when something just falls, and it just keeps getting faster, I think? Yeah, it speeds up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_040.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified that an object in free-fall speeds up, indicating an understanding of acceleration. However, the answer lacks specificity regarding the nature and value of this acceleration.\n\nYou're right that it speeds up. Now, thinking more specifically about the acceleration, what is unique about the acceleration of an object in free-fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_149.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_150.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_148.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay. An object in free-fall has a constant acceleration due to gravity, which is always directed downwards. Its acceleration is approximately 9.8 meters per second squared, regardless of its mass or velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_035.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_123.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_124.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_122.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an object in free-fall, the main thing about its acceleration is that it's always the same, like, it's a constant acceleration because gravity is the only thing pulling on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_036.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! You are correct that the acceleration of an object in free-fall is constant and due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_126.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_127.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_125.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can definitely explain that! For an object in free-fall, the key characteristic is that the only force acting on it is gravity. This means its acceleration is constant and always directed downwards, equal to the acceleration due to gravity, which is about 9.8 meters per second squared. We usually ignore air resistance in ideal free-fall situations.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_035.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! You've perfectly described the key characteristics of an object in free-fall, especially concerning its constant downward acceleration due to gravity, and the neglect of air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_129.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_130.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_128.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_067.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that an object in free-fall is solely under the influence of gravity. How does gravity affect the acceleration of such an object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_132.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so… if it’s only gravity… then its acceleration is… constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_068.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start. Its acceleration is indeed constant. Can you specify what that constant value is.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_133.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_131.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for an object in free-fall, the really cool thing is that its acceleration is constant. It's always pointing downwards, and its magnitude is about 9.8 meters per second squared, which we call \"g.\" Air resistance isn't really a factor in ideal free-fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_037.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your description of an object in free-fall, especially regarding its constant downward acceleration of 9.8 m/s², is accurate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_135.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_136.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_134.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_058.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that in free-fall, only gravity acts on the object, causing a specific type of acceleration that doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_138.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Its acceleration is constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_059.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Nice Work.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_139.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_140.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_137.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... free-fall... that's when it's just falling, right? Like, nothing else pushing it except gravity. So... its acceleration is, like, always the same, because gravity is always pulling it the same way?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_037.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a very good way to put it! You've captured the essential idea.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_142.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Um... isn't it when something falling just stops speeding up? Like, when the air pushing against it equals gravity pulling it down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_038.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You're describing terminal velocity, which is a good concept to know, but that happens when air resistance is significant. In ideal free-fall, where we often neglect air resistance, the object's acceleration doesn't stop speeding up due to air resistance. Think of what the constant acceleration is equal to and its direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_143.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_141.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_065.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the only force acting on an object in free-fall, ignoring air resistance, and what constant acceleration that force causes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_145.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_066.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "An object in free-fall experiences a constant downward acceleration due to gravity, approximately 9.8 m/s². That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_146.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_144.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "It's, um, always, like, accelerating, uh, at a constant rate, I think.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_041.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_148.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_149.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_147.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, for an object in free-fall, the only force acting on it is gravity. This means its acceleration is constant, always downwards, and approximately 9.8 meters per second squared, regardless of its mass.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_036.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_121.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_122.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_120.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an object in free-fall, its acceleration is always the same, you know? Like, it's constantly picking up speed because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_037.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your answer is partially correct. You mentioned its acceleration is always the same and due to gravity. However, you need to be more specific about the numerical value and direction of this acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_124.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_125.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_123.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "When an object is in free-fall, the main characteristic is that the only force acting on it is gravity. Because of this, its acceleration is constant, always 9.8 meters per second squared downwards, no matter its mass or how fast it's moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_036.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. When an object is in free-fall, the only force acting on it is gravity, and its acceleration is constant, approximately 9.8 m/s² downwards, regardless of its mass.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_127.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_128.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_126.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_069.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of the rate at which its velocity changes due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_130.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… it’s always accelerating downwards at a constant rate because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_070.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_131.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_132.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_129.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for something in free-fall, the main thing is that gravity is the only force acting on it. And because of that, its acceleration is constant and always points downwards. It's always about 9.8 meters per second squared, no matter how heavy the object is.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_038.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_134.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_135.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_133.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_060.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that the acceleration due to gravity is a specific, unchanging value near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_137.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um... its acceleration is constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_061.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "That's a good start. Can you be more specific about that constant acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_138.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_136.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Um, in free-fall, the acceleration is constant, like, it doesn't change. It's just gravity pulling it, right? So it's always 9.8 meters per second squared or something.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_039.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_140.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_141.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_139.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_067.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how the acceleration of a falling object changes or doesn't change as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_143.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it just stays the same, doesn’t it? Like, it’s always constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_068.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_144.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_145.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_142.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "Um, yeah, it just, like, keeps accelerating downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_042.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "That's partially correct. Think of the specific value and nature of that downward acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_147.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_148.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_146.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall has a constant acceleration. This acceleration is due to gravity, which is approximately 9.8 meters per second squared downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_037.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_123.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_124.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_122.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so an object in free-fall is always accelerating downwards, and that acceleration is always the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_038.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is incomplete. Think of the numerical value of this constant acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_126.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh yeah, it's like 9.8 meters per second squared, isn't it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_039.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_127.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_128.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_125.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so an object in free-fall is one where the only force acting on it is gravity. And the key characteristic of its acceleration is that it's constant and directed downwards, always 9.8 meters per second squared, regardless of the object's mass or initial motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_037.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_130.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_131.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_129.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_071.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that the acceleration due to gravity near the Earth's surface has a constant value.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_133.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, that its acceleration is constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_072.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The acceleration of an object in free-fall is constant, approximately 9.8 m/s², and directed downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_134.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_132.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so in free-fall, an object's acceleration is always constant and directed downwards, which is that 9.8 meters per second squared. It doesn't matter how heavy it is, it's always speeding up at the same rate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_039.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_136.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_137.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_135.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_062.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the constant value of acceleration due to gravity near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_139.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, I guess the acceleration is constant... because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_063.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is incomplete. Think of the specific numerical value and direction of this constant acceleration near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_140.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_138.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's just always speeding up... like, at the same rate?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_040.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is partially correct. You mentioned \"speeding up at the same rate.\" Think of the specific value and direction of this constant acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_142.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_143.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_141.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, drop something? I need to see it actually fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_069.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is incorrect. You have not described the characteristics of an object in free-fall regarding its acceleration.\n\"Remember that the acceleration due to gravity is a specific, unchanging value.\"", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_145.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_146.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_144.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, for free-fall, the acceleration is just, like, always the same, you know? Like, it's going down, and that's pretty much it for acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_043.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your answer is incomplete. Think of the specific value and direction of this constant acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_148.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Right. So, like, it's always that G number, and it's just going down. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_044.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_149.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_150.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_147.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall has a constant downward acceleration due to gravity, which is approximately 9.8 meters per second squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_038.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_120.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_121.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_119.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, for an object in free-fall, its acceleration is always constant, right? And it's because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_040.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Its acceleration is always constant due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_123.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_124.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_122.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, when an object is in free-fall, the key characteristic for its acceleration is that it's constant and always directed downwards. It's the acceleration due to gravity, which is about 9.8 meters per second squared, and we're usually ignoring air resistance for that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_038.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've perfectly described the key characteristics of an object in free-fall regarding its acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_126.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_127.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_125.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_073.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that objects in free-fall are only under the influence of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_129.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is its acceleration constant because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_074.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You're right that its acceleration is constant because of gravity. Think of the specific value of this constant acceleration and its direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_130.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_131.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_128.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for an object in free-fall, the only force acting on it is gravity. And its acceleration is always constant, like 9.8 meters per second squared, no matter what it weighs, if you ignore air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_040.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! You've accurately described the key characteristics of an object in free-fall, especially its constant acceleration due to gravity, regardless of its mass, when air resistance is ignored.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_133.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_134.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_132.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_064.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of how gravity affects the speed of an object that is falling without any other forces, like air resistance, acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_136.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, its acceleration is constant because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_065.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_137.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_138.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_135.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, free-fall... that's when it's just, like, falling because of gravity, right? So the acceleration, it just keeps getting faster at the same rate, downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_041.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_140.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_141.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_139.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. What even is free-fall? This is so frustrating.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_070.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of an object that is falling where the only force acting on it is gravity, and consider what happens to its speed and the rate at which its speed changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_143.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so like, it just keeps speeding up, right? And the acceleration, how fast it gets faster, is just... always the same because of gravity? It's just constant, that force pulling it down? Ugh, this is so much thinking, teacher. Can we, like, throw something now or something? I need to move!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_071.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! The acceleration of an object in free-fall is constant due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_144.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_145.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_142.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so, free-fall is just when something is like, falling? And the acceleration part... it's just, you know, it speeds up because of gravity. Like, it's always the same, I think, going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_045.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very good start! You've captured the main idea that acceleration is constant and due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_147.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, like, air resistance? Yeah, that's usually not there, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_046.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very thorough answer! You've correctly identified that in free-fall, an object's acceleration is constant, due to gravity, always directed downwards, and that air resistance is considered negligible.\n\nAlright, moving to the next one.\nWhat is the approximate value of this acceleration near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_148.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_149.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_146.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall has a constant downward acceleration due to gravity, which is approximately 9.8 m/s squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_039.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_121.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_122.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_120.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so in free-fall, the acceleration is constant, like it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_041.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "That's def part of it! But what's the value of that constant acceleration, or what causes it to be constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_124.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh, it's constant because of gravity, like gravity makes it accelerate at the same rate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_042.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally right.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_125.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_126.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_123.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, I can explain that! An object in free-fall is only acted upon by gravity, so its acceleration is constant and always directed downwards, with a value of approximately 9.8 meters per second squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_039.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's perfectly explained.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_128.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_129.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_127.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_075.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how gravity makes all objects fall at the same rate, regardless of their mass, in the absence of air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_131.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so like, its acceleration is always the same, no matter what it is, because of gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_076.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You're totally on the right track. Its acceleration is indeed constant and always the same because of gravity.\n\nLet's get into the deets. What is the approximate numerical value of this acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_132.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_133.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_130.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so in free-fall, an object is only really affected by gravity. Its acceleration is constant and always downwards, no matter what its speed is. It's about 9.8 meters per second squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_041.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally aced that. That's all for that question!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_135.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_136.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_134.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_066.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No stress, fam! Think of how gravity affects the speed of an object falling without air resistance, and whether that effect changes or stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_138.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's like... constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_067.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're on the right track! The acceleration of an object in free-fall is constant. It's specifically constant and equal to the acceleration due to gravity, which is approximately 9.8 m/s² downwards, assuming negligible air resistance. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_139.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_140.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_137.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... its acceleration is constant. It just keeps speeding up at the same rate because of gravity. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_042.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! Its acceleration is indeed constant because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_142.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_143.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_141.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_072.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Remember that free-fall means only gravity is acting on the object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_145.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's like, just the acceleration from gravity? And it's always the same, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_073.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_146.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_147.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_144.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "It's just like, when it's falling, the acceleration, it's always, you know, the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_047.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're on the right track that the acceleration is constant! What causes that constant acceleration and what's its approximate value.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_149.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_150.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_148.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall experiences a constant downward acceleration due to gravity. This acceleration is approximately 9.8 meters per second squared, regardless of the object's mass or initial velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_040.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_121.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_122.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_120.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, so for an object in free-fall, its acceleration is always constant, and it's always pointing downwards. Like, it just keeps getting pulled by gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_043.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_124.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_125.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_123.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for an object in free-fall, the main characteristic about its acceleration is that it's constant. It's always accelerating downwards due to gravity, at about 9.8 meters per second squared, and that acceleration doesn't change, even if its speed does.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_040.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_127.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_128.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_126.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_077.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "You were unable to answer the question. Think of how the force of gravity affects the speed of a falling object when air resistance is negligible.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_130.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it that the acceleration is constant, teacher? Like, because of gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_078.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_131.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_132.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_129.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for an object in free-fall, its acceleration is always constant, no matter what. It's always accelerating downwards at about 9.8 meters per second squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_042.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_134.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_135.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_133.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_068.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the constant value and direction of acceleration due to gravity near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_137.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Its acceleration is constant because of gravity, and it's always downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_069.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The acceleration of an object in free-fall is constant and directed downwards due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_138.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_139.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_136.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh... free-fall... is when gravity is the only thing acting on it? And the acceleration is... constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_043.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_141.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_142.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_140.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_074.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that in free-fall, the only significant force acting on the object is gravity, and it causes a specific, constant acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_144.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it's only gravity acting on it, and the acceleration is constant?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_075.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_145.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_146.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_143.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, free-fall? That's just when something is, like, falling down, right? And the acceleration, it just, uh, keeps speeding up, I guess? There's just so much to keep straight with all these physics things.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_048.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer for free-fall is partially correct but lacks precision regarding the specific conditions and the nature of the acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_148.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_149.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_147.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_1", + "message": "An object in free-fall has a constant downward acceleration due to gravity. Its acceleration is always 9.8 meters per second squared, regardless of its mass or motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_041.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! That's a precise description. An object in free-fall indeed has a constant downward acceleration due to gravity, approximately 9.8 m/s², irrespective of its mass or initial motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_123.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_124.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_122.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, in free-fall, I think the main thing is that its acceleration is always constant, and it's just due to gravity pulling on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_044.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've hit the nail on the head.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_126.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_127.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_125.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, an object in free-fall has a constant acceleration. It's always directed downwards, and its magnitude is approximately 9.8 meters per second squared, or 'g'.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_041.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Excellent! You've perfectly described the key characteristics of an object in free-fall, particularly its constant downward acceleration of 9.8 m/s².", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_129.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_130.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_128.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_079.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that in free-fall, the only force acting on an object is gravity, and this force causes a very specific, unchanging acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_132.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... so, like, the acceleration is constant... and it's always downwards because of gravity? Teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_080.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_133.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_134.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_131.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_5", + "message": "In free-fall, an object's acceleration is always constant, and it's always downwards because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_043.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've perfectly described the acceleration of an object in free-fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_136.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_137.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_135.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_070.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of what happens to the speed of an apple falling from a tree as it gets closer to the ground, and what causes that change in speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_139.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Its acceleration is constant because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_071.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, that's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_140.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_141.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_138.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... free-fall is when something just drops, right? Only gravity is pulling on it. And the acceleration... it's like, always the same speed it's gaining? I think?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_044.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a very good start! You've nailed the definition of free-fall – it's indeed when only gravity is pulling on an object. And you're absolutely right that its acceleration is constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_143.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_144.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_142.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_076.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that in free-fall, the only force acting on the object is gravity. Think of how this force pulls on an object; does its pull get stronger or weaker as it falls, or does it stay the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_146.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_077.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In free-fall, an object's acceleration is constant and equal to the acceleration due to gravity, which is approximately 9.8 m/s² downwards, regardless of its mass or initial velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_147.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_145.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe the key characteristics of an object in free-fall, specifically regarding its acceleration.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, like, it's just falling, right? And it just like, goes faster because of gravity. That's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_049.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a good start, you're right that it goes faster because of gravity. However, let's try to be more precise about the characteristics of that acceleration.\n\nRemember that \"goes faster\" implies a specific rate of change that has a constant value and direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_149.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_150.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_148.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "children": [ + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "It's approximately 9.8 meters per second squared.\n\nNo, the acceleration due to gravity remains constant regardless of the object's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_042.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_152.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_153.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_151.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Nah, it doesn't change. Gravity always pulls it down the same way, whether it's going up or falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_045.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_155.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_156.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_154.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, the acceleration due to gravity doesn't change. It's always 9.8 meters per second squared downwards, whether an object is thrown up or dropped. It's a constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_042.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_158.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_159.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_157.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_081.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the direction and magnitude of the gravitational force, which is constant near the Earth's surface, regardless of the object's initial velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_161.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… no, it doesn't change? Because gravity is always, like, pulling the same way?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_082.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_162.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_163.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_160.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "No, it doesn't change! Gravity always pulls it down at the same 9.8 meters per second squared, even if the object is moving upwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_044.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The acceleration due to gravity remains constant at 9.8 m/s² downwards, regardless of whether the object is moving upwards or downwards. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_165.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_166.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_164.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_072.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the nature of the gravitational force, which acts consistently downwards regardless of whether an object is moving up, down, or sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_168.wav?download=true" + }, + { + "speaker": "student_6", + "message": "No.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_073.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_169.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_170.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_167.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, no, it's still the same. It's always pulling down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_045.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_172.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_173.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_171.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_078.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember that the acceleration due to gravity acts consistently downwards, regardless of the object's initial direction of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_175.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, no, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_079.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_176.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_177.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_174.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "No, I don't think so. Gravity just always pulls it down, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_050.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified that the acceleration due to gravity does not change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_179.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_180.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_178.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it doesn't change. The acceleration due to gravity is always 9.8 meters per second squared downwards, no matter if the object is going up, down, or at its highest point.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_043.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_151.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_152.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_150.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "No, it doesn't change. Gravity always pulls it down at the same rate, even if it's going up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_046.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. The acceleration due to gravity remains constant, pulling downwards, whether an object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_154.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_155.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_153.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, teacher, it does not change. The acceleration due to gravity is always constant and always acts downwards, no matter if the object is going up, coming down, or even just dropped. It's always about 9.8 meters per second squared downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_043.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! The acceleration due to gravity does not change; it remains constant at approximately 9.8 m/s² downwards, regardless of whether the object is thrown upwards or dropped. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_157.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_158.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_156.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, it's... like, nine point eight meters per second squared? Or just g? And no, I don't think it changes... because gravity is still the only thing acting on it, so it's still the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_083.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_160.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_161.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_159.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "No, it doesn't change! Gravity's acceleration is always the same, 9.8 meters per second squared downwards, whether something is going up, coming down, or even at the very top of its path. It's always pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_045.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct. The acceleration due to gravity remains constant at approximately 9.8 m/s² downwards, regardless of whether the object is moving up, down, or is momentarily at rest at the peak of its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_163.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_164.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_162.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_074.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the acceleration due to gravity is a constant value that always acts downwards, regardless of whether the object is moving up, down, or sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_166.wav?download=true" + }, + { + "speaker": "student_6", + "message": "No, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_075.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_167.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_168.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_165.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... no? Gravity still pulls it down the same way, even if it's going up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_046.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_170.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_171.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_169.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_080.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the acceleration due to gravity is a constant value, regardless of the object's motion or direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_173.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. No, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_081.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_174.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_175.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_172.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "No, it's, um, still the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_051.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_177.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_178.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_176.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it does not. The acceleration due to gravity remains constant at 9.8 meters per second squared, always directed downwards, whether the object is moving up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_044.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_150.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_151.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_149.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I don't think it changes. It's still just gravity pulling it down, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_047.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_153.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_154.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_152.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, the acceleration due to gravity stays the same. It's always 9.8 meters per second squared downwards, whether an object is going up, down, or even thrown sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_044.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The acceleration due to gravity does not change whether an object is thrown upwards or dropped; it remains constant at approximately 9.8 m/s² downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_156.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_157.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_155.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_084.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of whether the force of gravity itself changes its strength or direction based on an object's initial motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_159.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… it… no, it doesn’t? Because gravity is always pulling it down the same way?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_085.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_160.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_161.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_158.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "Nope, it doesn't change at all! It's always the same, 9.8 meters per second squared, and it always points downwards, even if you throw something straight up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_046.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_163.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_164.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_162.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "No, it's still constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_076.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_166.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_167.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_165.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "No, I don't think so. It's still gravity pulling it, so the acceleration should still be the same, like, 9.8 or whatever, just downwards. Even if it's going up first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_047.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_169.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_170.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_168.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_082.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of the direction and magnitude of the gravitational force, regardless of the object's initial motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_172.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it like, doesn’t change, right? It’s still the same, even if it’s going up?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_083.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_173.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_174.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_171.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, no, it's still, like, the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_052.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your answer is correct but lacks a complete explanation.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_176.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_177.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_175.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it does not change. The acceleration due to gravity remains constant at 9.8 meters per second squared downwards, whether the object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_045.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.\nThat's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_152.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_153.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_151.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "No, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_048.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_155.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_156.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_154.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, it doesn't change. The acceleration due to gravity stays constant at 9.8 meters per second squared downwards, whether an object is dropped or thrown upwards. It's always the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_045.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_158.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_159.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_157.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_086.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that the acceleration due to gravity is a constant value, regardless of the object's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_161.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, no, it, uh, doesn't change?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_087.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_162.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_163.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_160.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "Nope, it stays the same. It's still 9.8 meters per second squared downwards, even when it's going up. Gravity always pulls the same way.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_047.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_165.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_166.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_164.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_077.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the direction and magnitude of gravitational acceleration, regardless of the object's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_168.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, no, I guess it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_078.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_169.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_170.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_167.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "No... it's still the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_048.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_172.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_173.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_171.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw something up and catch it? I need to like, feel if it's different.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_084.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the direction and magnitude of the gravitational force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_175.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so if the force is always pulling down, and it's always the same strength… then no? It stays the same? Can we just like, throw a ball up and feel it slow down and then speed up? I need to like, see it happen.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_085.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_176.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_177.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_174.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, no. It's, like, still the same, right? Gravity just does what it does.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_053.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_179.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_180.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_178.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, the acceleration due to gravity does not change. It remains constant at approximately 9.8 meters per second squared downwards, whether the object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_046.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_151.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_152.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_150.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, no, it doesn't change. Gravity's acceleration is always the same, no matter if you throw it up or drop it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_049.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. The acceleration due to gravity remains constant regardless of the object's initial motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_154.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_155.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_153.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, it doesn't change. The acceleration due to gravity stays constant at 9.8 meters per second squared, and it always acts downwards, whether the object is thrown up or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_046.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The acceleration due to gravity remains constant, always acting downwards, regardless of whether the object is moving upwards, downwards, or is momentarily at the peak of its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_157.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_158.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_156.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_088.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that gravity always pulls objects towards the Earth's center.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_160.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... I guess it wouldn't change? Because gravity always pulls down no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_089.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The acceleration due to gravity does not change; it remains constant and always directed downwards, whether the object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_161.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_162.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_159.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "No, it doesn't change! It's always the same, 9.8 meters per second squared, and it always points downwards, even if the object is moving up. It's still pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_048.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! That's a great explanation. The acceleration due to gravity is indeed constant, 9.8 m/s², and always directed downwards, whether the object is moving up, down, or at the peak of its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_164.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_165.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_163.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_079.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of how gravity affects all objects near the Earth's surface, regardless of whether they are moving up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_167.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, no, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_080.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_168.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_169.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_166.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, no, it's still the same. Gravity just keeps pulling down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_049.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_171.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_172.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_170.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. Does it? This is just so much sitting. Can we just do something active instead of talking about it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_086.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the direction gravity always pulls objects, whether they are going up or coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_174.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's still gravity pulling it down, right? So the acceleration doesn't change even if it's going up? It's still the same constant pull, right? This is just so much sitting, teacher. Can we please do something where we actually move or throw stuff?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_087.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_175.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_176.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_173.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, no, I don't think so. It's still, like, gravity, so it's probably the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_054.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_178.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_179.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_177.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it doesn't change. The acceleration due to gravity is always constant and acts downwards, even if the object is moving upwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_047.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! That's totally correct. The acceleration due to gravity stays constant at approximately 9.8 m/s² downwards, no matter if the object is going up, down, or chilling at its peak.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_152.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_153.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_151.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Nope, it stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_050.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_155.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_156.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_154.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, it doesn't change! The acceleration due to gravity remains constant, always about 9.8 meters per second squared downwards, regardless of whether the object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_047.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It stays constant, pulling everything downwards. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_158.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_159.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_157.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "No, teacher, it's like, still the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_090.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_161.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_162.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_160.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "No, it doesn't! The acceleration due to gravity is always the same, around 9.8 meters per second squared, no matter if something is thrown up or just dropped. It's always pulling it down, so that acceleration stays constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_049.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally aced that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_164.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_165.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_163.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_081.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Remember that the acceleration due to gravity is always pulling objects towards the Earth, no matter which way they're moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_167.wav?download=true" + }, + { + "speaker": "student_6", + "message": "No, it doesn't.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_082.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_168.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_169.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_166.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... no, I don't think it changes. It's still gravity pulling it down, right? So the acceleration is still the same, even if it's going up first. It's just... always pulling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_050.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! The acceleration due to gravity stays the same, no matter if an object is thrown up or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_171.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_172.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_170.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_088.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's nail this! Remember that gravity always pulls things down with the same strength, no matter which way the object is moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_174.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, no. It's always the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_089.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_175.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_176.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_173.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "No, it's like, just the same. It doesn't really change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_055.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It totally stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_178.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_179.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_177.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it does not change. The acceleration due to gravity remains constant at 9.8 meters per second squared downwards, regardless of whether the object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_048.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_151.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_152.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_150.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, no, I don't think it changes. It's always pulling downwards, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_051.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_154.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_155.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_153.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, it doesn't change. The acceleration due to gravity stays constant at 9.8 meters per second squared, always pulling downwards, no matter if the object is moving up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_048.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_157.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_158.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_156.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_091.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that the acceleration due to gravity is a constant value near the Earth's surface, regardless of the object's velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_160.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... so, it doesn't change, teacher? Like, it's always the same?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_092.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_161.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_162.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_159.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "No, it doesn't change. The acceleration due to gravity is always the same, whether it's going up or down. It's still pulling it downwards at 9.8 meters per second squared.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_050.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The acceleration due to gravity remains constant, approximately 9.8 m/s² downwards, regardless of whether the object is moving upwards, downwards, or at the peak of its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_164.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_165.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_163.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_083.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that acceleration due to gravity is a property of the Earth itself, not dependent on the object's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_167.wav?download=true" + }, + { + "speaker": "student_6", + "message": "No, it doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_084.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The acceleration due to gravity does not change whether an object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_168.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_169.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_166.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… no? It's still gravity, pulling it down the same way.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_051.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_171.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_172.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_170.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_090.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that the acceleration due to gravity is a constant value near the Earth's surface, regardless of the object's direction of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_174.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, no, it's still the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_091.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_175.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_176.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_173.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, no? It's still, like, gravity, right? It just, uh, goes up first. There's just so much to think about with all these different scenarios.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_056.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_178.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_179.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_177.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_1", + "message": "No, it does not. The acceleration due to gravity remains constant at 9.8 meters per second squared downwards, regardless of its motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_049.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The acceleration due to gravity remains constant, always directed downwards, whether an object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_152.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_153.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_151.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, no, I don't think it changes. Gravity is always pulling it down, so the acceleration should stay the same, whether it's going up or falling down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_052.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You're absolutely right, the acceleration due to gravity remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_155.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_156.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_154.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_3", + "message": "No, it does not change. The acceleration due to gravity remains constant at approximately 9.8 meters per second squared, even if the object is thrown upwards. It always acts downwards, pulling the object back towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_049.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The acceleration due to gravity remains constant at 9.8 m/s² and always acts downwards, regardless of whether the object is moving up, down, or momentarily at the peak of its flight. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_158.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_159.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_157.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_093.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of gravity as a constant force, always pulling in the same direction, no matter if an object is rising or falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_161.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... so it... it doesn't change, teacher? It's always the same, pulling down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_094.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_162.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_163.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_160.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_5", + "message": "Nope, it's always the same, no matter if it's going up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_051.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_165.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_166.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_164.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_085.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of gravity pulling on the object whether it's moving up, down, or standing still.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_168.wav?download=true" + }, + { + "speaker": "student_6", + "message": "No, it doesn't.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_086.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_169.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_170.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_167.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_7", + "message": "Um, no, I don't think so. Gravity still pulls it down the same way, even if it's going up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_052.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The acceleration due to gravity remains constant, whether an object is thrown upwards or dropped. It always acts downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_172.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_173.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_171.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_092.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that the acceleration due to gravity is a constant value near the Earth's surface, always pulling objects downwards, regardless of whether they are moving up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_175.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, no, it doesn't.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_093.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_176.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_177.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_174.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Does the acceleration due to gravity change if an object is thrown upwards instead of dropped?", + "responses": [ + { + "speaker": "student_9", + "message": "Nah, I don't think so. It's just gravity, so it's always the same pulling force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_057.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The acceleration due to gravity remains constant, regardless of whether an object is thrown upwards or dropped.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_179.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_180.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_178.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "children": [ + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "For horizontally launched projectiles, the initial motion is purely horizontal, meaning there's no initial vertical velocity. Their trajectory shape is a half-parabola. For angle-launched projectiles, the initial motion has both horizontal and vertical velocity components, and their trajectory shape is a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_050.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Nice Work.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_182.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_183.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_181.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so with horizontally launched ones, they start by just going sideways, and then their path is like half of a curve downwards. But with angle-launched projectiles, they start going up and sideways, and then their path is a full curve, like a big arch.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_053.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_185.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_186.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_184.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for horizontally launched projectiles, their initial motion is purely horizontal, meaning they start with zero vertical velocity. Their trajectory is like a half-parabola, curving downwards right away.\n\nBut for angle-launched projectiles, their initial motion has both horizontal and vertical velocity components because they're launched at an angle. This gives them a full parabolic trajectory, where they go up and then come back down. It's interesting how that initial vertical push creates such a different path, even though gravity is still the main force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_050.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_188.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_189.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_187.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_095.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the initial vertical velocity component for each type of launch and how that affects the full path it traces in the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_191.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... so, like, if it's launched horizontally, it just goes... straight out first, but then gravity pulls it down, so it just curves downwards, like a half-arc, maybe? But for angle-launched, it's like, you throw it upwards, so it goes up first, and then it comes down, so it makes a whole... like, a big rainbow shape, like a full arc? Is that, um, is that kind of right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_096.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_192.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_193.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_190.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for horizontally launched ones, they start with only sideways motion, no initial up-or-down speed. Like rolling a ball off a table. Their path is like half an arc, just curving downwards. But for angle-launched ones, like throwing a basketball, they start with both sideways and upward speed. Their path is a full arc, going up and then coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_052.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly differentiated between horizontally launched and angle-launched projectiles based on their initial motion and trajectory shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_195.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_196.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_194.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_087.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how the initial vertical velocity component differs for an object thrown perfectly flat compared to one thrown upwards at an angle.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_198.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_199.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_197.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So horizontally launched, it just goes straight out, right? And then it starts to curve down. But angle-launched... that's like when you throw it up, so it goes up first and then comes down. Both are still those curved paths though.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_053.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Your differentiation of initial motion is good. However, your description of the trajectory shape for both types of projectiles is incomplete. You need to elaborate on how their curved paths differ visually or mathematically.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_201.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Ugh, okay. So the horizontally launched one is like, just half a curve going down? And the angle-launched one, that's like the whole big curve, going up and then down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_054.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_202.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_203.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_200.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_094.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how the initial velocity vector differs for an object thrown straight forward versus one thrown upwards at an angle.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_205.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so for horizontal, it just goes straight out at first, and it's like half a curve. But for angle-launched, it goes up and out, so it's a full curve, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_095.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_206.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_207.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_204.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "So, like, horizontally launched ones just start going straight across, right? And the others, like, angle-launched, they go up first, then down. The shapes are just different curves, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_058.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You have a general idea about the initial motion for both types of projectiles and acknowledges different curve shapes. However, the answer lacks scientific precision regarding the initial vertical velocity component for horizontally launched projectiles and the specific characteristics of the trajectory shapes for both.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_209.wav?download=true" + }, + { + "speaker": "student_9", + "message": "It just always gets faster at the same rate, you know? Like, it's a constant kind of speed up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_059.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_210.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_211.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_208.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay. Horizontally launched projectiles start with only a horizontal velocity component, and their trajectory is a half parabola. Angle-launched projectiles start with both horizontal and vertical velocity components, and their trajectory forms a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_051.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_180.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_181.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_179.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for horizontally launched ones, they pretty much just start moving straight out, sideways, like off a cliff or something. Their path is kind of like half a curve. But with angle-launched projectiles, they start moving both sideways and upwards, so their path makes a full curve, like a rainbow.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_054.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! Your differentiation is spot on. Horizontally launched projectiles begin with only horizontal velocity, resulting in a half-parabolic trajectory, while angle-launched projectiles have both horizontal and vertical initial velocities, creating a full parabolic path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_183.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_184.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_182.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can definitely differentiate between them! For horizontally launched projectiles, their initial motion is purely horizontal, meaning they start with no initial vertical velocity, they just move sideways and then gravity pulls them down. Their trajectory shape is like half a parabola, because they start falling immediately.\n\nBut for angle-launched projectiles, their initial motion has both horizontal and vertical components because they're launched upwards at an angle. So their trajectory shape is a full parabola, where the object goes up first and then comes back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_051.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! You've accurately differentiated between horizontally launched and angle-launched projectiles based on their initial motion and trajectory shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_186.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_187.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_185.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_097.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how the initial velocity vector is directed for each type of launch.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_189.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so… for the horizontal one, it’s like, it starts going just straight across? And then it, like, curves down. And the angle one, it starts going up, like, at an angle, and then it, like, makes a bigger curve, like, up and then down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_098.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! You've accurately described both the initial motion and the trajectory shape for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_190.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_191.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_188.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, this is neat to think about visually! For horizontally launched projectiles, like rolling a ball off a table, the initial motion is just sideways, with no initial up or down movement. The path it takes is like half a curve, just going down. But for angle-launched ones, like kicking a soccer ball, it starts with both an upward and a sideways push, so it goes up first and then comes back down, making a whole curved arc, like a complete rainbow shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_053.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your differentiation is very clear and accurate. You correctly identified the initial horizontal velocity and half-parabolic trajectory for horizontally launched projectiles, and the initial horizontal and vertical velocity components leading to a full parabolic trajectory for angle-launched projectiles. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_193.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_194.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_192.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_088.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how the initial velocity for a horizontally launched projectile is only in one direction, while an angle-launched projectile has an initial velocity that is split into both horizontal and vertical components.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_196.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh... horizontally launched only has a horizontal initial speed, I guess. And angle-launched... it has both horizontal and vertical initial speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_089.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start regarding the initial motion! You're correct that a horizontally launched projectile only has an initial horizontal velocity, while an angle-launched projectile has both horizontal and vertical initial velocities.\n\nNow, think about the trajectory shape for each. What does the path look like for a horizontally launched projectile versus an angle-launched projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_197.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_198.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_195.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... horizontally launched, that's like, when you throw something straight out, right? Like off a table. So it only starts going sideways at first, not up.\n\nAnd angle-launched... that's when you throw it up at an angle, like throwing a ball. So it starts going sideways and up.\n\nAnd for the path... horizontally launched just goes, like, a half-curve downwards. But angle-launched makes a full arch, like that parabola thing we talked about.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_055.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_200.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_201.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_199.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_096.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how the initial velocity components differ for each type of launch and what shape their overall path through the air takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_203.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. For horizontally launched, it's just, like, straight out at first, and it curves down. For angle-launched, it's got, like, up and out speed, and it goes up then down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_097.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! You've captured the key differences for both.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_204.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_205.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_202.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, okay. So, like, horizontally launched, they, uh, start going straight across. And then angle-launched, they, um, go up. And the, uh, shapes are, like, different curves, you know?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_060.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You're on the right track regarding their initial motion. Horizontally launched projectiles do start going straight across, and angle-launched ones start with an upward component. Now, think about the specific shape of the path each one takes. Remember that both are subject to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_207.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_208.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_206.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, for horizontally launched projectiles, the initial motion is purely horizontal, so the vertical velocity starts at zero. The trajectory is a half-parabola. For angle-launched projectiles, the initial motion has both horizontal and vertical components, meaning it's launched upwards at an angle. The trajectory is a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_052.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_179.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_180.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_178.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so if it's launched horizontally, it just goes straight out first, right? And then it curves downwards. But if it's angle-launched, it goes up and then comes back down in that big arc.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_055.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your answer accurately describes the initial motion and trajectory shape for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_182.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Okay, so are we talking about the horizontal part and the vertical part? I think they're like, totally separate, you know? But they're both happening at the same time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_056.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your statement correctly identifies the independence and simultaneity of the horizontal and vertical components of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_183.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_184.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_181.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "For horizontally launched projectiles, the initial motion is straight outwards, so there's no initial upward vertical speed, just horizontal. Their trajectory is a half parabola, curving downwards from the start. For angle-launched projectiles, they begin with both horizontal and upward vertical speed, and their trajectory is a full parabola, going up first and then coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_052.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_186.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_187.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_185.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_099.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of the initial vertical velocity each type of projectile has at the moment it is launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_189.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… so, like, for horizontally launched, the initial vertical velocity is zero, so it just goes out and curves down, like half of a parabola. But for angle-launched, it goes up first, so it has an initial vertical velocity, and then it comes down, making a whole parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_100.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_190.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_191.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_188.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for horizontally launched projectiles, they start off just going straight out, like, only sideways. And their path is like half a parabola, just curving downwards right away. But for angle-launched ones, they start with both an upward and sideways push, so they go up first, reach a peak, and then come down, making a full, arching parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_054.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_193.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_194.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_192.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_090.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think about the direction of the initial velocity for each type of projectile and how that impacts the form of its path through the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_196.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Horizontally launched ones start going straight out, so their path is like half a curve. Angle-launched ones start going up and out, so their path is a full curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_091.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_197.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_198.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_195.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So, horizontally launched, it's like, just thrown straight out, right? So it starts moving sideways and then just falls. The path is kinda like half a curve. But angle-launched, that's when you throw it up, like, at an angle. So it goes up first, then comes down, making a full curve. It has, like, initial speed both up and sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_056.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_200.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_201.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_199.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_098.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how the initial velocity components differ for each type of launch, and consider how this difference affects the overall shape of the path it travels.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_203.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so if it’s horizontal, it like, just goes straight out, so no up and down at first? And it’s like half a curve? But if it’s angled, it goes up and then down, so it’s a full curve, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_099.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_204.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_205.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_202.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so like, horizontally launched, it just goes straight out first, you know? And then the angle-launched one, it starts by going up. Their paths are, like, different, obviously.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_061.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You've correctly identified the initial horizontal motion for horizontally launched projectiles and the initial upward motion for angle-launched projectiles. However, elaborate more on the specific shapes of their trajectories.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_207.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_208.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_206.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "For horizontally launched projectiles, the initial motion is purely horizontal, meaning the initial vertical velocity is zero. Their trajectory shape is a half-parabola.\n\nFor angle-launched projectiles, the initial motion has both horizontal and vertical components. Their trajectory shape is a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_053.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_182.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_183.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_181.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so with horizontal ones, they just start by going sideways, and then they curve down. But for angle-launched, they go up and then come down, kinda like a full arc.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_057.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_185.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_186.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_184.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for horizontally launched projectiles, the initial motion is purely horizontal, meaning there's no initial upward or downward velocity. The trajectory shape is like half a parabola. For angle-launched projectiles, they have both an initial horizontal and an initial vertical velocity component, and their trajectory forms a full parabolic shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_053.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_188.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_189.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_187.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_101.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how the initial velocity vector is directed for each type of projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_191.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_102.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For horizontally launched projectiles, the initial vertical velocity is zero, and the trajectory is a half-parabola. For angle-launched projectiles, the initial vertical velocity is non-zero, and the trajectory is a full parabola. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_192.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_190.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so horizontally launched projectiles are like when you roll something off a table, it starts moving straight out with no up-or-down push, and its path is like half a curve. But angle-launched projectiles are like throwing a ball up into the air, they start with an upward angle, so they have both horizontal and vertical speed at the beginning, and their path is a full, big curve, like a rainbow shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_055.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_194.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_195.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_193.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_092.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how the initial velocity components are different for an object thrown straight forward versus one thrown upwards and forward, and how these different starting motions would affect the overall shape of their paths.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_197.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, so, horizontally launched is like, just forward, so it's kinda half a curve. But angle-launched is like, up and forward, so it's a whole curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_093.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_198.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_199.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_196.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… so horizontally launched… it just goes forward right away? Like off a table? And angle-launched, it goes up first, then down… like throwing a ball up. And the shapes… one’s like half a parabola, and the other is the full parabola?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_057.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Your description of both is correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_201.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_202.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_200.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw something straight and then throw something up at an angle? I need to actually see the difference.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_100.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the starting direction of the projectile's velocity and how it affects the curve of its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_204.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so if it's horizontal, it just starts going straight forward and then drops, so it's like half a curve, right? But if it's angle-launched, it goes up first and then comes down, making a whole arch? Can we just like, throw a ball two different ways to see it? I need to like, actually do it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_101.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_205.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_206.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_203.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so like, for horizontally launched, it just starts going sideways, you know? But for angle-launched, it goes up first. And then the shape is like, one's half a curve and the other's a whole curve, pretty much.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_062.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_208.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_209.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_207.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, horizontally launched projectiles start with only horizontal velocity, so their initial vertical velocity is zero, and their trajectory is a half parabola. Angle-launched projectiles start with both horizontal and vertical velocity components, so their initial vertical velocity is not zero, and their trajectory is a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_054.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_181.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_182.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_180.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for horizontally launched ones, they just start going straight out, like off a cliff, so they only have horizontal speed at first. Their path is like half a curve downwards. But angle-launched ones, they get thrown up at an angle, so they have both horizontal and vertical speed right away. And their path is a full, kind of symmetrical arch.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_058.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! Your differentiation between horizontally launched and angle-launched projectiles based on their initial motion and trajectory shape is correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_184.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_185.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_183.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for horizontally launched projectiles, their initial motion is purely horizontal, meaning they start with zero vertical velocity. Their trajectory shape is like half a parabola, curving downwards from the moment they're launched.\n\nOn the other hand, angle-launched projectiles have an initial motion that's both horizontal and vertical because they're launched at an angle. Their trajectory shape is a full, symmetrical parabola, going up and then coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_054.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've accurately differentiated between horizontally launched and angle-launched projectiles based on their initial motion and trajectory shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_187.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_188.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_186.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_103.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Think of how the initial push or throw differs for something launched straight out versus something launched upwards, and how that affects the complete path it follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_190.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... for horizontally launched, it's like, just pushed straight out, so the path is kinda like half a curve? But for angle-launched, it goes up first, so the curve is, like, a whole thing?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_104.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's an excellent way to put it! You've correctly described the initial motion and trajectory shapes for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_191.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_192.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_189.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so horizontally launched ones start with only speed sideways, no up or down at first. Their path looks like half a parabola, just curving downwards. But angle-launched ones start with both sideways and upward speed, so they go up then down, making a full parabolic shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_056.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! You've accurately differentiated between them. Horizontally launched projectiles have an initial horizontal velocity and a half-parabolic trajectory, while angle-launched projectiles have both initial horizontal and vertical velocity components, resulting in a full parabolic trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_194.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_195.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_193.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_094.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of how a ball thrown straight off a cliff begins its path compared to a ball thrown upwards from the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_197.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh... for the cliff one, it starts going straight, horizontally, and then just falls down in a curve. But if you throw it up from the ground, it goes up and then down, so it's like a full curve, and it starts at an angle, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_095.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job. You've correctly identified the initial motion and trajectory shapes for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_198.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_199.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_196.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So, horizontally launched... that's like, just thrown straight out, so it starts with only side-to-side speed. And the path is like half a rainbow. But angle-launched... that's thrown up at an angle, so it has speed going up and sideways at first. And its path is like, a full rainbow curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_058.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! You've accurately described the initial motion and trajectory shape for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_201.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_202.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_200.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. Like, is there a way we can just demonstrate this or something? My brain feels stuck just sitting here.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_102.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of how you would initially throw a ball if you wanted it to go straight out versus how you would throw it to make it go high into the air, and consider the path each ball would take.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_204.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so if you throw it straight out, like, horizontally, it just goes kinda flat then curves down? Like a half-arc? But if you throw it up at an angle, it goes up first, then makes a big high arc before it comes down? Like a whole rainbow shape? This is still so much talking, teacher. Can we just go throw some stuff already? I need to move!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_103.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! Your description of the initial motion and trajectory for both types of projectiles is accurate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_205.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_206.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_203.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, those two. So, one of them just, like, goes straight out, right? And the other one, it, like, goes up first, at an angle. And then they both, you know, curve down, but the angle one goes higher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_063.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very good way to put it! You've correctly identified the key differences in their initial motion and how that affects their trajectory shapes, particularly that angle-launched projectiles achieve a greater height.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_208.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_209.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_207.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "For horizontally launched projectiles, the initial motion is only horizontal, and the trajectory is half of a parabola. For angle-launched projectiles, the initial motion has both horizontal and vertical components, and the trajectory forms a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_055.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! That's a perfect explanation for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_181.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_182.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_180.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so horizontally launched ones, they kinda just start going sideways, right? Like, straight out. But angle-launched ones, they start by going up and also sideways at the same time. And for the path, the horizontal ones just curve down, but the angle ones make a big arc, like a rainbow shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_059.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You totally nailed both parts! You described the initial motion and trajectory shape accurately for both types of projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_184.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Okay, cool.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_060.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You totally got both the initial motion and the trajectory shapes right. That's it for that item!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_185.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_186.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_183.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, I can explain the difference! Horizontally launched projectiles start with only an initial horizontal velocity, so their trajectory is like half a parabola, curving downwards from the start. Angle-launched projectiles, though, have both an initial horizontal and an initial vertical velocity because they're launched upwards at an angle, so their trajectory forms a full, complete parabolic arc, going up then coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_055.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed the distinction between them. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_188.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_189.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_187.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_105.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how the initial velocity is directed for something launched straight out versus something launched upwards at an angle.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_191.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so like, for horizontally launched, the beginning push is just straight across, and it just curves down. But for angle-launched, it's pushed up and out, so it goes up and then down, making a whole curve, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_106.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_192.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_193.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_190.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for horizontally launched projectiles, they only start with a horizontal push, so their initial vertical speed is zero. Their path looks like half a parabola, like a ramp.\n\nBut for angle-launched ones, they start with both horizontal and vertical speed because they're launched upwards at an angle. And their path makes a full, complete parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_057.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally crushed that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_195.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_196.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_194.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_096.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of how the initial push or throw differs when you launch something straight out versus when you launch it upwards at an angle, and how that affects the shape of its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_198.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um, one just goes straight out, and the other goes up first. And one's like, a full curve, and the other is just half.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_097.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_199.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_200.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_197.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... horizontally launched is like... you just push it straight out, so it starts going only sideways. And then it just falls down, so it's like a half-curve. But angle-launched, you throw it up, so it goes up and then down, making a whole curve. It has both sideways and up-and-down motion at the start. It's a lot to keep straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_059.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You totally nailed the differences between horizontally and angle-launched projectiles.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_202.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_203.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_201.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_104.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Think of how you would throw a ball perfectly flat versus throwing it upwards at an angle.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_205.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_206.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_204.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, okay. So, with horizontally launched, it's like, it just starts going, you know, straight out from the beginning. And then the angle-launched, that one, it goes like, up first, right? And then it comes back down. So the path is, like, totally different. One's more of a, like, half-curve, and the other one's the whole, you know, big arc thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_064.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! You totally nailed it with how their initial motion and trajectory shapes are different.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_208.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_209.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_207.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "For horizontally launched projectiles, the initial motion is purely horizontal, meaning they have no initial vertical velocity. Their trajectory is a half-parabola, curving downwards from the start. Angle-launched projectiles, however, have an initial motion with both horizontal and vertical velocity components because they are launched at an angle to the horizontal. Their trajectory forms a full parabolic arc, rising and then falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_056.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_181.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_182.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_180.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for horizontally launched ones, they start by just going straight out, like off a table or something, and their path looks kinda like half a curve downwards. But for angle-launched, they start by going up and out, so their path makes a full, big curve, like an arc.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_061.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_184.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_185.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_183.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for horizontally launched projectiles, their initial motion is purely horizontal, meaning they start with no upward or downward velocity, just sideways. Their trajectory looks like half a parabola, curving downwards right from the start.\n\nBut for angle-launched projectiles, their initial motion is at an angle, so they have both an upward vertical velocity and a horizontal velocity component. Their trajectory is a full parabolic arc, going up to a maximum height before coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_056.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Excellent explanation. You have correctly differentiated between horizontally launched and angle-launched projectiles based on their initial motion and trajectory shape.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_187.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_188.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_186.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_107.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the initial direction of velocity for each type of projectile and how that affects the path it takes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_190.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... okay, teacher. So, for horizontally launched, it's like, just going sideways at first, so it just curves downwards? And then for angle-launched, it goes, like, up and sideways, so it goes up and then comes back down in a bigger curve?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_108.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_191.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_192.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_189.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for horizontally launched ones, they start with only a horizontal push, so they just go straight out and then curve down, like half a rainbow. But angle-launched ones get thrown upwards at an angle, so they go up first, then peak, and then come down, making a full, big curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_058.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Horizontally launched projectiles begin with only an initial horizontal velocity and follow a parabolic path that resembles half an arc. Angle-launched projectiles have both an initial horizontal and vertical velocity component, resulting in a full parabolic trajectory that ascends to a peak before descending.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_194.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_195.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_193.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_098.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "You did not know the answer to the question. I need to provide a hint.\n\nThink of the direction an object is initially propelled in a horizontal launch versus an angle launch, and how that difference influences the complete path it follows.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_197.wav?download=true" + }, + { + "speaker": "student_6", + "message": "A horizontal one just starts going sideways, then falls. An angle one goes up first then comes down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_099.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your description of their initial vertical movement is correct. For a horizontally launched projectile, the initial vertical velocity is zero, leading to a half-parabolic trajectory. For an angle-launched projectile, there is an initial upward vertical velocity component, resulting in a full parabolic trajectory. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_198.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_199.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_196.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… so horizontally launched is like, you throw it straight out, and it just drops from there, so it’s only half a curve. But angle-launched… that’s like, when you throw it up and forward, so it goes up then down, making a full curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_060.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_201.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_202.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_200.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_105.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of how the initial velocity vector for each type of projectile would be oriented relative to the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_204.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay, so horizontally launched, it's like, just goes straight out, right? Like flat. And angle-launched, it goes, like, up and then down, so it's angled. So one's like half a curve, and the other's a full curve?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_106.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_205.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_206.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_203.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, horizontally launched? That just goes, like, straight out first. And angle-launched, it goes, you know, up at an angle. And the path, they both curve, but one goes, like, higher up first. It's just so much to keep track of, all these different ways things can move.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_065.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_208.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_209.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_207.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_1", + "message": "Horizontally launched projectiles have an initial velocity that is purely horizontal, and their trajectory forms a half-parabola. Angle-launched projectiles have an initial velocity with both horizontal and vertical components, launched at an angle, and their trajectory forms a full parabola.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_057.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Nice work! Your differentiation is spot on. Horizontally launched projectiles begin with only horizontal velocity, tracing a half-parabola, while angle-launched projectiles have both horizontal and vertical initial velocity components, forming a full parabola. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_182.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_183.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_181.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for horizontally launched ones, they start by just going straight out, like off a cliff, so they only have that sideways push initially. Their path looks like half a curve, like half a rainbow.\n\nBut for angle-launched, they start by going both up and forward at the same time, because they're launched at an angle. And their path is a full curve, like a complete rainbow.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_062.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've perfectly described the differences in their initial motion and the shapes of their trajectories.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_185.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_186.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_184.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, for horizontally launched projectiles, the initial motion is purely horizontal, meaning they start with no initial upward or downward vertical velocity. Their trajectory is a half-parabola, curving downwards from the start.\n\nFor angle-launched projectiles, the initial motion has both horizontal and vertical velocity components because they're launched upwards at an angle. Their trajectory forms a full parabola, going up and then coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_057.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Excellent! You've precisely differentiated between horizontally launched and angle-launched projectiles. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_188.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_189.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_187.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_109.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of a cannonball shot perfectly straight off a cliff, not angled up or down, just straight out. What direction is its very initial movement.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_191.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_192.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_190.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for horizontally launched, it only starts with speed sideways, like, no upward push at first. Its path is like half a rainbow, just curving down. But for angle-launched, it starts with speed going up and sideways, so its path is a full rainbow shape, going up then coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_059.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good Job! You've precisely captured the distinction between the initial motions and the resulting trajectory shapes for both types of projectiles. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_194.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_195.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_193.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_100.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that for a horizontally launched projectile, like a ball rolling off a table, its initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_197.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Okay so for horizontally launched ones, the initial vertical velocity is zero, like it just goes straight out. And the path is like... half a curve. But for angle-launched, it starts going up and out, so it makes a full curve.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_101.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, you've got both parts right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_198.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_199.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_196.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... horizontally launched is like, it just goes straight out at first, like off a cliff, so the curve is just the bottom half. But angle-launched, it starts going up or down at an angle, so it makes the whole U-shaped path. It's kinda hard to keep them straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_061.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a very good way to differentiate them! You've clearly articulated the difference in their initial motion and how that affects the shape of their trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_201.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Um… like throwing a baseball? Or kicking a soccer ball?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_062.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "You've hit the nail on the head! Throwing a baseball or kicking a soccer ball are excellent examples of angle-launched projectiles. Correct.\n\nNow, let's dive deeper into the first type. For a horizontally launched projectile, what is the initial vertical velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_202.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_203.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_200.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_107.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that a horizontally launched projectile starts with all its initial velocity in the horizontal direction, while an angle-launched projectile has its initial velocity split into both horizontal and vertical components.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_205.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. So, like, a horizontally launched one just goes sideways at first, then drops. But an angle-launched one goes up and sideways at the beginning? And then it, like, makes a bigger curve, I guess?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_108.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a good start on their initial motion! You've correctly identified how they begin their journey. Now, let's refine your description of the \"bigger curve.\"", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_206.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_207.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_204.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Differentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, horizontally launched ones just like, go straight out at first, and then they curve down. But the angle-launched ones, they go up first, you know, at an angle, and then they come back down. So their curves look different.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_066.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's an excellent way to put it! You've perfectly captured the differences in their initial motion and how their paths unfold.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_209.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_210.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_208.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "children": [ + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "The consistent force acting on the projectile in both cases is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_058.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_213.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_214.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_212.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's easy. It's always just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_063.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_216.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_217.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_215.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity. It's always there, pulling things down, which is why we see the paths that we do.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_058.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_219.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_220.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_218.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_110.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the force that causes objects to accelerate downwards near the Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_222.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… is it gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_111.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_223.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_224.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_221.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity again! It's always gravity, pulling it down consistently no matter how it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_060.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. Gravity is the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_226.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_227.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_225.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_102.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_229.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_230.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_228.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's still just gravity, isn't it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_063.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_232.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_233.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_231.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_109.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember the force that continuously acts downward on the projectile, regardless of its horizontal or upward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_235.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, that's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_110.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_236.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_237.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_234.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just gravity, right? Like, always pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_067.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_239.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_240.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_238.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_059.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_210.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_211.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_209.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "It's always gravity that's pulling on it, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_064.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! It is always gravity that is pulling on it, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_213.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_214.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_212.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, that's an easy one! In both types of projectile motion, the consistent force acting on the projectile is gravity. It's always pulling it downwards, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_059.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! In both types of projectile motion, the consistent force acting on the projectile is indeed gravity. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_216.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_217.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_215.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_112.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that a projectile is an object upon which the only force acting is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_219.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, it’s… gravity? Because that’s the only force acting on it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_113.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_220.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_221.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_218.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It's always pulling things down, no matter how they're launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_061.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct. Gravity is indeed the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_223.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_224.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_222.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_103.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the force that constantly pulls the projectile downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_226.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_104.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "The consistent force acting on the projectile in both types of motion is gravity.\n\nLet's move on to the next question.\nWhat is the effect of air resistance on the projectile's motion, and how is it usually treated in introductory physics problems.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_227.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_225.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... is it still gravity? Like, the one that's always pulling it down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_064.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_229.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_230.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_228.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_111.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the force that is always pulling objects downward towards the Earth, regardless of how they are moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_232.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. Is it... gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_112.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_233.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_234.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_231.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "It's, uh, still gravity. Yeah, gravity's always there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_068.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_236.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_237.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_235.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_060.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_210.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_211.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_209.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's just gravity again, isn't it? Like, it's always there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_065.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_213.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_214.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_212.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_060.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_216.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_217.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_215.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… it’s gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_114.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_219.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_220.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_218.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity! It's always gravity pulling it down, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_062.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_222.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_223.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_221.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_105.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_225.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_226.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_224.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "It's still gravity, right? Like, always gravity. That's the only one that really matters.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_065.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_228.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_229.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_227.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_113.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that this force is always present and pulls objects downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_231.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it’s just gravity, isn’t it? It’s always gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_114.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_232.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_233.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_230.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just gravity again. Yeah. That's always it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_069.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_235.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_236.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_234.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_061.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_211.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_212.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_210.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's just gravity, right? It's always there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_066.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_214.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_215.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_213.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_061.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_217.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_218.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_216.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_115.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the universal force that pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_220.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_116.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_221.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_222.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_219.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's still gravity! It's always pulling things down, no matter how they start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_063.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_224.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_225.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_223.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_106.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the force that constantly pulls objects towards the Earth's center, regardless of their horizontal movement.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_227.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_107.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_228.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_229.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_226.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it’s still gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_066.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_231.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_232.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_230.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw something and like, feel it pushing down? I need to actually feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_115.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the invisible force that continuously pulls objects towards the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_234.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it… gravity? Can we just like, throw something and feel it pulling down? I need to actually feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_116.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_235.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_236.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_233.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just gravity, you know. Like, that's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_070.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_238.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_239.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_237.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "The consistent force acting on the projectile in both types of motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_062.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_211.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_212.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_210.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's easy! It's definitely gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_067.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. It's definitely gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_214.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_215.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_213.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_062.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! In both types of projectile motion, the consistent force acting on the projectile is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_217.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_218.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_216.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_117.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that there's one specific force that consistently pulls objects towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_220.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it like, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_118.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_221.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_222.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_219.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity! That's the only force always acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_064.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is indeed the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_224.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_225.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_223.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_108.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Remember that we've discussed the primary force that always pulls objects downwards throughout our session.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_227.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_109.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_228.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_229.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_226.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just gravity, right? It's always gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_067.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_231.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_232.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_230.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My brain is just buzzing from sitting still so long. Can we just do something active already?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_117.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the primary force that consistently pulls all objects towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_234.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it still gravity, teacher? The one that pulls everything down? This is just so boring, sitting here forever. Can we please, please, PLEASE move on to something where we actually do something instead of just talking?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_118.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_235.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_236.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_233.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's always like, gravity. Yeah, that one's always there, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_071.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_238.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_239.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_237.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_063.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! It's indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_211.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_212.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_210.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's definitely gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_068.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_214.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_215.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_213.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity! That's the consistent force acting on the projectile in both types of motion, always pulling it downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_063.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! Gravity is always the main character pulling things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_217.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_218.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_216.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_119.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Remember that the force that constantly pulls objects downwards towards the Earth is always at play, regardless of how an object is launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_220.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_120.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_221.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_222.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_219.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity again! It's always pulling it down, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_065.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_224.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_225.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_223.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_110.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of the fundamental force that keeps us on Earth and pulls all objects downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_227.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_111.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_228.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_229.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_226.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's still gravity. It's just... always there, pulling everything down. It's a lot to keep track of.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_068.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's always gravity. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_231.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_232.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_230.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_119.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_234.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_235.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_233.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, that same force, you know? The one that's always there, pulling stuff down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_072.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're totally right about it being \"that same force that's always there, pulling stuff down\"! What's the specific term we use for that force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_237.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_238.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_236.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_064.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_211.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_212.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_210.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's definitely gravity! It's always there pulling things down, no matter how they start moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_069.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_214.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_215.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_213.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "The consistent force acting on the projectile in both types of motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_064.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_217.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_218.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_216.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_121.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that constantly pulls all objects towards the center of the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_220.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_122.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_221.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_222.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_219.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It's always there, pulling things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_066.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is the consistent force acting on the projectile in both types of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_224.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_225.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_223.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_112.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that pulls all objects towards the Earth's center.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_227.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_113.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_228.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_229.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_226.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it's still gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_069.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_231.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_232.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_230.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_120.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember the primary force that acts on all objects near the Earth's surface and causes them to accelerate downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_234.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_121.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_235.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_236.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_233.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that’s just, uh, the same force we keep talking about, right? The one that always makes things fall down. It's just always there, no matter what. It’s a lot to keep track of, all these consistent things.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_073.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_238.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_239.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_237.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_1", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_065.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! The consistent force acting on the projectile in both types of projectile motion is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_212.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_213.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_211.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would definitely be gravity again. It's always there, no matter how it starts moving.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_070.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! It is indeed gravity that consistently acts on the projectile in both types of motion. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_215.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_216.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_214.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_3", + "message": "In both types of projectile motion, the consistent force acting on the projectile is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_065.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. In both types of projectile motion, gravity is indeed the consistent force acting on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_218.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_219.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_217.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_123.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember the consistent force we discussed earlier that pulls all objects downwards, causing them to fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_221.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it... gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_124.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_222.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_223.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_220.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It's always there pulling it down, no matter what.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_067.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_225.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_226.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_224.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_114.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the universal force that constantly pulls objects towards the Earth, making them fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_228.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_115.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_229.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_230.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_227.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's still gravity, right? It's always pulling stuff down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_070.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is indeed the consistent force acting on the projectile in both types of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_232.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_233.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_231.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_122.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember the force that consistently pulls everything downwards towards the Earth, the same force that causes objects to fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_235.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_123.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_236.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_237.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_234.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "In both types of projectile motion, what is the consistent force acting on the projectile?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just gravity. Like, the same one we keep talking about.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_074.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! It is indeed gravity that consistently acts on the projectile in both types of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_239.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_240.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_238.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "children": [ + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because there is no horizontal force acting on it. Gravity only acts vertically downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_066.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_242.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_243.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_241.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, well, if gravity is the only force acting on it, and gravity only pulls things down, then there's nothing really pushing it or slowing it down sideways. So, its horizontal speed just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_071.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_245.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_246.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_244.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "The horizontal velocity of a projectile remains constant because, neglecting air resistance, there are no horizontal forces acting on it. Since there's no horizontal force, there's no horizontal acceleration, so the velocity in that direction stays the same. It makes sense when you think about it like that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_066.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_248.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_249.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_247.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_125.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of any forces acting on the projectile in the horizontal dimension.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_251.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_126.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "The horizontal velocity of a projectile remains constant because, neglecting air resistance, there are no forces acting on the projectile in the horizontal direction. According to Newton's First Law of Motion, an object in motion will stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. Since gravity acts only vertically, it does not affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_252.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_250.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so the horizontal velocity stays constant because there's no force pushing it forward or backward horizontally once it's launched. Gravity only pulls it downwards, it doesn't affect the sideways motion at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_068.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The horizontal velocity of a projectile remains constant because, in the absence of air resistance, there are no horizontal forces acting on it to cause a change in its velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_254.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_255.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_253.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_116.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the forces acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_257.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because there's no horizontal force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_117.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_258.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_259.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_256.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because nothing is pushing or pulling it sideways, I guess? Like, gravity just pulls it down, not sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_071.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_261.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_262.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_260.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_124.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the forces acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_264.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because there's no force acting on it horizontally?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_125.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_265.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_266.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_263.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Because there's nothing pushing it sideways, you know? Gravity just pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_075.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified that there is no horizontal force acting on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_268.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_269.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_267.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because, neglecting air resistance, there are no horizontal forces acting on it. Since there's no horizontal force, there's no horizontal acceleration, so the horizontal velocity doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_067.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_239.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_240.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_238.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so the horizontal velocity stays constant because there's no force pushing or pulling it horizontally. Gravity only pulls it down, not sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_072.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! You are absolutely right. The horizontal velocity of a projectile remains constant because, neglecting air resistance, there are no horizontal forces acting on it to cause a change in its horizontal motion. Gravity only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_242.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_243.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_241.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can explain this! The horizontal velocity of a projectile remains constant throughout its motion because, if we ignore air resistance, there are no horizontal forces acting on the object. Since there's no horizontal force, there's no horizontal acceleration, and according to Newton's First Law, an object in motion stays in motion with the same velocity if no net force acts on it. So, its horizontal speed doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_067.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! The horizontal velocity remains constant because, neglecting air resistance, there are no horizontal forces acting on the projectile, meaning there is no horizontal acceleration, and thus, its horizontal velocity does not change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_245.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_246.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_244.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don’t know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_127.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think about whether there are any forces acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_248.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, because there’s, like, no force pushing it, um, sideways? So it just, like, stays the same?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_128.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_249.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_250.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_247.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because there's no force acting horizontally on it! Gravity only pulls things downwards, so it doesn't affect the sideways motion. Since there's no horizontal force, there's no horizontal acceleration, and the horizontal velocity just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_069.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your explanation is perfectly accurate. Since there is no horizontal force (ignoring air resistance), there is no horizontal acceleration, and therefore the horizontal velocity remains constant throughout the projectile's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_252.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_253.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_251.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_118.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that in the absence of horizontal forces like air resistance, there is nothing to speed up or slow down the projectile horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_255.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um, because there are no horizontal forces.\n\nUm, because there are no horizontal forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_119.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_256.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_257.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_254.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because there's nothing pushing it sideways, right? Like, gravity only pulls it down, not sideways. So if nothing's pushing it, it just keeps going at the same speed horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_072.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_259.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_260.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_258.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_126.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of what forces are acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_262.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. There's, like, no force pushing it sideways?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_127.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "That's a good start! You're thinking about the forces correctly.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_263.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_264.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_261.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, yeah, because there's like, nothing making it change, like, sideways. It just… keeps going.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_076.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_266.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_267.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_265.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, the horizontal velocity remains constant because there are no horizontal forces acting on the projectile. Since there's no horizontal force, there's no horizontal acceleration, so the velocity in that direction doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_068.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_238.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_239.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_237.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for the horizontal velocity, I think it stays the same because there's nothing really pushing it or pulling it sideways, right? Like, gravity only pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_073.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You correctly explained that there are no horizontal forces acting on the projectile, and gravity acts only vertically, which is why horizontal velocity remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_241.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_242.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_240.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so the horizontal velocity of a projectile stays constant because there's no horizontal force acting on it. Gravity only pulls things downwards, vertically, so it doesn't affect the sideways motion at all. Without any force pushing or pulling it horizontally, its speed and direction in that way just don't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_068.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The horizontal velocity of a projectile remains constant because there is no horizontal force acting on it to cause a change in its horizontal motion; gravity acts only in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_244.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_245.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_243.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_129.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of any forces acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_247.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_130.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "The horizontal velocity of a projectile remains constant throughout its motion because, in the absence of air resistance, there are no forces acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_248.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_246.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so it stays constant because gravity only pulls things down, right? There's literally no force pushing or pulling it sideways once it's launched. So, if nothing's messing with its horizontal movement, that speed just stays the same the whole time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_070.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_250.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_251.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_249.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_120.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of any forces acting horizontally on the projectile after it is launched, assuming no air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_253.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because there are no horizontal forces acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_121.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_254.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_255.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_252.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because there's no force pushing it, like, horizontally. Only gravity pulls it down, so the sideways speed just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_073.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You have a good understanding that gravity only acts vertically. However, you need to explicitly mention the absence of horizontal forces and connect it to Newton's first law or the concept of zero net horizontal force, rather than just \"no force pushing it horizontally.\"", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_257.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Ugh, okay. So, like, there's no net force acting on it horizontally, so its horizontal velocity stays constant because of, like, Newton's first law?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_074.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_258.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_259.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_256.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_128.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of any horizontal forces that would act on the projectile after it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_261.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because there aren’t any forces pushing it side to side after it gets launched, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_129.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_262.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_263.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_260.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Um, yeah, because there's just nothing, like, pushing it or pulling it sideways, you know?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_077.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_265.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_266.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_264.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because there is no horizontal force acting on it. Gravity acts only vertically, so there's no horizontal acceleration to change its horizontal speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_069.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_241.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_242.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_240.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I think it's because there's nothing really pushing or pulling it horizontally, you know? Gravity only pulls it downwards, so its sideways speed just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_074.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_244.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_245.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_243.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, the horizontal velocity of a projectile remains constant because, when we ignore air resistance, there are no horizontal forces acting on the projectile. Gravity only acts vertically, so there's nothing to speed it up or slow it down horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_069.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_247.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_248.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_246.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_131.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of Newton's First Law of Motion and what it says about objects in motion when no net force acts on them.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_250.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, so, like, there's no, uh, horizontal force acting on it, so it just keeps going at the same speed because of, uh, Newton's First Law?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_132.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_251.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_252.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_249.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because there's no horizontal force pushing or pulling it after it's launched. Gravity only works downwards, so nothing affects its forward speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_071.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_254.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_255.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_253.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_122.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the forces acting horizontally on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_257.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, because there's no horizontal force.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_123.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_258.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_259.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_256.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Um… because nothing is pulling it sideways? Like, gravity only pulls it down, not forward or back.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_075.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_261.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_262.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_260.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, roll something on a super smooth floor and see it just keep going and going? I need to like, see it happen.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_130.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the forces acting horizontally on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_264.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there aren't any forces pushing it sideways, then it just keeps going the same speed, right? Like, nothing's slowing it down or speeding it up horizontally? Can we just like, throw something super smooth and see if it actually just keeps going? I need to like, really see it without anything stopping it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_131.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_265.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_266.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_263.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, because there's just nothing really pushing it sideways, you know? Like, gravity just pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_078.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_268.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_269.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_267.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because there is no horizontal force acting on it. Gravity only acts vertically, and we usually assume air resistance is negligible, so there's no force to change its horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_070.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_241.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_242.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_240.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's because there's no force acting on it horizontally to speed it up or slow it down. Gravity only pulls it down, not sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_075.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Your explanation is spot on!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_244.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_245.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_243.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "The horizontal velocity of a projectile remains constant because, assuming we're ignoring air resistance, there are no horizontal forces acting on the projectile. Gravity only acts vertically, so it doesn't affect the horizontal motion. Without any horizontal force, there's no horizontal acceleration, which means the horizontal velocity stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_070.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've accurately explained why the horizontal velocity of a projectile remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_247.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_248.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_246.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_133.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that there are no forces acting horizontally on the projectile once it's launched, assuming we ignore air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_250.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it because there aren't any forces pushing it sideways, so it just keeps going the same speed?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_134.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The horizontal velocity of a projectile remains constant because, neglecting air resistance, there are no horizontal forces acting on it to change its speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_251.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_252.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_249.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so it's because there's no horizontal force acting on it. Gravity only pulls it down, so nothing speeds it up or slows it down horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_072.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's precisely right. Since there are no horizontal forces acting on the projectile (assuming we ignore air resistance), there's nothing to change its horizontal speed, so it remains constant. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_254.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_255.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_253.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_124.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of what forces are acting on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_257.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh... because there aren't any forces pushing it horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_125.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_258.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_259.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_256.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because there’s no force pushing it or pulling it sideways, only gravity pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_076.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_261.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_262.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_260.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My legs are starting to feel stiff from sitting so long. Can we, like, do an experiment or something active?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_132.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of what force, if any, acts on the projectile in the horizontal direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_264.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there’s no force making it go sideways, like, pushing or pulling it, then its horizontal speed just stays the same, right? Nothing is changing it? Can we like, just get up and do something, teacher? My legs are totally stiff from sitting.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_133.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! You're absolutely right. Since there's no horizontal force acting on the projectile (neglecting air resistance), its horizontal velocity remains constant. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_265.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_266.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_263.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, uh, it's because there's nothing, like, pushing it sideways, I guess. Or pulling it. So it just, you know, stays the same speed that way.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_079.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_268.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_269.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_267.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity remains constant because, neglecting air resistance, there are no horizontal forces acting on the projectile. Since there's no horizontal force, there's no horizontal acceleration, so the velocity in that direction stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_071.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! That's totally correct. You nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_240.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_241.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_239.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's because there's no force pushing or pulling it sideways, you know? Like, gravity only pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_076.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "That's totally it! You nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_243.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh, that would be gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_077.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Your answer is correct. You correctly identified that the absence of horizontal forces (with gravity only acting vertically) is why horizontal velocity remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_244.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_245.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_242.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "I can definitely explain that! The horizontal velocity of a projectile remains constant throughout its motion because, if we neglect air resistance, there are no forces acting horizontally on the projectile. Gravity only acts vertically downwards, so it doesn't affect the horizontal component of the velocity at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_071.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it. No horizontal forces means constant horizontal velocity. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_247.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_248.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_246.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_135.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of what forces are acting on the projectile horizontally. Is there anything pushing or pulling it left or right, assuming we're ignoring air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_250.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_251.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_249.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because once it's launched, there isn't any horizontal force pushing or pulling it forward or backward, if we're ignoring air resistance. Gravity only pulls it downwards, so it doesn't affect its horizontal speed at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_073.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_253.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_254.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_252.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_126.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of what forces are acting horizontally on the projectile once it's launched, assuming we're ignoring air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_256.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um... because nothing's pushing it horizontally?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_127.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're on the right track! Think of Newton's First Law of Motion and what it says about an object's motion when there are no unbalanced forces acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_257.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_258.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_255.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because there's nothing pushing or pulling it sideways. Like, gravity only pulls down, right? So sideways, there's no force acting on it. It just keeps going the same speed that way. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_077.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You've totally got it. Since gravity only acts downwards and we're ignoring air resistance, there's no horizontal force to change that horizontal velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_260.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_261.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_259.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_134.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Think of what forces are acting horizontally on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_263.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because there's no force pushing it or pulling it sideways, right? Like, gravity only pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_135.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_264.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_265.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_262.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just, like, because nothing's really, you know, pushing it or pulling it sideways once it's going. So it just keeps going.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_080.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it – because there are no horizontal forces acting on it to change its velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_267.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_268.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_266.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because there are no horizontal forces acting on it to cause a change. Gravity only acts vertically, so it only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_072.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_241.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_242.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_240.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, okay. So, it stays constant because there's no force acting on it horizontally, you know, pushing it or pulling it sideways. Gravity only pulls it down, not left or right.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_078.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_244.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_245.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_243.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "The horizontal velocity of a projectile remains constant because there are no horizontal forces acting on it after it's launched. Gravity only acts downwards, vertically, so it doesn't affect the horizontal motion. Without a horizontal force, there's no horizontal acceleration, meaning the horizontal velocity stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_072.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_247.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_248.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_246.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_136.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of any forces that might be acting horizontally on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_250.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it because there aren't any forces pushing or pulling it sideways, teacher? Like, horizontally?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_137.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_251.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_252.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_249.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because there's no horizontal force pushing or pulling it after it's launched. Gravity only pulls it down, so sideways, it just keeps moving at the same speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_074.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The horizontal velocity of a projectile remains constant because, in the absence of air resistance, there is no horizontal force acting on it to cause a change in its horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_254.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_255.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_253.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_128.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of any forces acting horizontally on the projectile, ignoring air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_257.wav?download=true" + }, + { + "speaker": "student_6", + "message": "There aren't any horizontal forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_129.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. In the absence of air resistance, there are no horizontal forces acting on the projectile, which means there is no horizontal acceleration, and thus the horizontal velocity remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_258.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_259.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_256.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… because there’s nothing pushing or pulling it sideways, I guess? Only gravity is pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_078.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_261.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_262.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_260.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_136.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of any horizontal forces acting on the projectile after it's launched, assuming no air resistance.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_264.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because there's no horizontal force acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_137.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_265.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_266.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_263.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, the horizontal velocity? That just stays the same, right? Because there's nothing really pushing it sideways to make it speed up or slow down horizontally. It's just a lot to keep track of, all these directions and forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_081.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_268.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_269.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_267.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_1", + "message": "The horizontal velocity of a projectile remains constant because there are no horizontal forces acting on it. Since there's no horizontal force, there's no horizontal acceleration, so the horizontal speed doesn't change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_073.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The horizontal velocity remains constant because, in the absence of air resistance, there are no horizontal forces to cause a change in that motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_242.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_243.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_241.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, well, I guess because there's no force pushing or pulling it sideways once it's launched. Like, gravity only pulls it down, not sideways, so its horizontal speed just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_079.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've precisely hit the mark. Since there's no horizontal force acting on the projectile (assuming we ignore air resistance), its horizontal velocity remains unchanged.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_245.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_246.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_244.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, the horizontal velocity of a projectile stays constant because, if we're not considering air resistance, there are no forces acting on it horizontally. Gravity only pulls downwards, so there's nothing to change its speed or direction sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_073.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. You've hit the bullseye! The horizontal velocity of a projectile remains constant because, assuming no air resistance, there are no horizontal forces acting upon it to speed it up, slow it down, or change its direction. Gravity, as you rightly pointed out, only works vertically.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_248.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_249.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_247.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_138.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of what forces are acting horizontally on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_251.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... so like... if there's no force... pushing or pulling it sideways... then its horizontal speed just stays the same, teacher? Because there's nothing horizontally acting on it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_139.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_252.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_253.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_250.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_5", + "message": "Because there's no force pushing or pulling it sideways, like, only gravity is pulling it down. So without anything to speed it up or slow it down horizontally, it just keeps that same side-to-side speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_075.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've explained it perfectly. Because there's no significant horizontal force acting on the projectile (like air resistance, which we often ignore in basic projectile motion), its horizontal velocity remains steady, like a car cruising on a flat road with no gas or brakes applied.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_255.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_256.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_254.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_130.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of what forces are acting on the projectile horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_258.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because there are no horizontal forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_131.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, you've got both parts right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_259.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_260.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_257.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because there's nothing pushing it sideways, I guess? Like, gravity pulls it down, but nothing's making it speed up or slow down horizontally unless there's air. So its sideways speed just stays the same.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_079.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a very insightful explanation! You're absolutely right that the horizontal velocity remains constant because, assuming negligible air resistance, there are no horizontal forces acting on the projectile to either speed it up or slow it down. The only force acting is gravity, which works solely in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_262.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_263.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_261.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_138.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that velocity only changes when there's an unbalanced force acting in that direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_265.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so like, there's no force pushing it sideways?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_139.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_266.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_267.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_264.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Explain why the horizontal velocity of a projectile remains constant throughout its motion.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, because there's nothing really pushing it sideways, you know? Like, gravity only pulls it down, not left or right, so it just kinda keeps going at the same speed horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_082.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've precisely explained it. Since there's no horizontal force acting on the projectile (neglecting air resistance), its horizontal velocity remains constant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_269.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_270.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_268.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "children": [ + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "That implies the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_074.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_271.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_272.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_270.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, if there's no horizontal force, then there's no horizontal acceleration. It's just zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_080.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_274.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_275.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_273.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "If there's no horizontal force, then it implies that the horizontal acceleration is zero. It makes sense because of Newton's second law, where force is equal to mass times acceleration, so if the force is zero, the acceleration in that direction has to be zero too.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_074.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_277.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_278.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_276.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_140.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of Newton's Second Law of Motion, which states how force and acceleration are related.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_280.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... so if there's no force, then... there's no acceleration? Like, it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_141.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_281.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_282.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_279.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that means the horizontal acceleration is zero! Because if there's no force pushing or pulling it horizontally, then it can't speed up or slow down sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_076.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. If there is no horizontal force, the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_284.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_285.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_283.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_132.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of Newton's Second Law of Motion, which states how force, mass, and acceleration are related.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_287.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_133.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_288.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_289.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_286.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, then there's like, no horizontal acceleration?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_080.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_291.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_292.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_290.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_140.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of Newton's First Law of Motion regarding objects in motion when no net force acts upon them.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_294.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there's no force, then there's no acceleration, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_141.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_295.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_296.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_293.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Well, if it stays constant, then it just doesn't have any acceleration, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_083.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_298.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_299.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_297.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "That implies the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_075.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_269.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_270.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_268.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, if there's no force, then there's no acceleration in that direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_081.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_272.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_273.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_271.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, if there's no horizontal force, then the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_075.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_275.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_276.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_274.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_142.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of Newton's second law of motion, which relates force, mass, and acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_278.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, if there's no force… and force is mass times acceleration… then the acceleration has to be… zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_143.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_279.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_280.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_277.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "It means the horizontal acceleration is zero! No force, no acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_077.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_282.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_283.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_281.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_134.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of Newton's First Law of Motion, which states what happens to an object's motion when there is no net force acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_285.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_135.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_286.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_287.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_284.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... if there's no force, then there's no acceleration, right? So it would be zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_081.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_289.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_290.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_288.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_142.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that if there is no net force acting on an object, its acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_292.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_143.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_293.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_294.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_291.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, it's like, zero then? Yeah, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_084.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_296.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_297.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_295.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "It implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_076.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_268.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_269.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_267.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, so then there's no horizontal acceleration? Like, if there's no force, it just keeps going at the same speed sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_082.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_271.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_272.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_270.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "If there's no horizontal force, then that means the horizontal acceleration is zero. There's no force to make it speed up or slow down horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_076.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. If there is no horizontal force, the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_274.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_275.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_273.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… it means there’s no horizontal acceleration?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_144.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_277.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_278.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_276.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that means there's no horizontal acceleration! If there's no force, there's no change in speed sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_078.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_280.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_281.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_279.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_136.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_283.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_284.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_282.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, if there's no force, then there's no acceleration, right? So it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_082.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_286.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_287.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_285.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_144.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that if there is no net force acting on an object, its acceleration will be zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_289.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it’s like, zero, then? If there’s no force, there’s no acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_145.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_290.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_291.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_288.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just zero, really.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_085.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_293.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_294.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_292.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_077.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_271.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_272.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_270.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, if there's no force sideways, then there's no acceleration sideways either. It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_083.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_274.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_275.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_273.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "It implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_077.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_277.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_278.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_276.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_145.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of Newton's Second Law of Motion, which relates force, mass, and acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_280.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_146.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_281.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_282.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_279.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, then that means there's no horizontal acceleration at all! It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_079.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_284.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_285.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_283.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_137.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of Newton's second law of motion, which relates force, mass, and acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_287.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, if there's no force, then the acceleration is zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_138.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_288.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_289.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_286.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it means there’s no acceleration horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_083.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_291.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_292.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_290.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, push something really gently and see if it like, speeds up or slows down horizontally? I need to like, actually feel if it changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_146.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of Newton's First Law of Motion regarding objects in motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_294.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, push something and see if it speeds up or slows down? I need to actually feel it. If there's no force pushing it sideways, then it just stays the same speed, right? So like, no acceleration? Can we just like, push something really hard and then really gently to feel the difference in how it moves? I need to like, really feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_147.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_295.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_296.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_293.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, it just means there's no acceleration, you know? Sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_086.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_298.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_299.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_297.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "That implies the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_078.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_271.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_272.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_270.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that means there's no horizontal acceleration then, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_084.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. If there's no horizontal force, then there's no horizontal acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_274.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_275.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_273.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_078.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_277.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_278.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_276.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_147.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Think of Newton's First Law of Motion, which describes what happens to an object's motion when there's no net force acting on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_280.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... if there's no force, then it means there's no acceleration horizontally? Like, it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_148.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_281.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_282.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_279.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, if there's no horizontal force, then there's no horizontal acceleration. It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_080.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! If there's no horizontal force, the horizontal acceleration is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_284.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_285.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_283.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_139.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of Newton's first law of motion, which states what happens to an object's motion when no net force acts on it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_287.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_140.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, that implies the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_288.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_286.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that means there’s no acceleration sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_084.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_290.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_291.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_289.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. Can we, like, actually do something instead of just talking about it? I'm getting so antsy!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_148.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of how force and acceleration are related according to Newton's Second Law of Motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_293.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there's no force, then there's no acceleration, right? It's just... zero? Can we just like, get up and move around a bit, teacher? I'm practically glued to this chair!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_149.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_294.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_295.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_292.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, uh, it means there's just, like, no acceleration horizontally, then. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_087.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_297.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_298.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_296.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "It implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_079.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_270.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_271.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_269.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, then the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_085.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_273.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_274.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_272.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "Oh, that means the horizontal acceleration is zero! Because if there are no horizontal forces, there's nothing to cause a change in the horizontal velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_079.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it. No horizontal force means zero horizontal acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_276.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_277.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_275.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Oh, um, if there's like, no force, then it just, like, doesn't speed up or slow down sideways, right? So the acceleration is zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_149.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_279.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_280.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_278.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, if there's no horizontal force, then the horizontal acceleration has to be zero! Like, it's not speeding up or slowing down sideways at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_081.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally right.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_282.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_283.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_281.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_141.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_285.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_286.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_284.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... if there's no force sideways, then it can't be speeding up or slowing down that way. So the horizontal acceleration would be... zero. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_085.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! That's totally right. If there's no horizontal force, the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_288.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_289.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_287.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_150.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's nail this! Remember that forces cause acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_291.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there's no force, then there's no acceleration?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_151.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_292.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_293.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_290.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, nothing, right? So there's no acceleration there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_088.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it – it means there's no horizontal acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_295.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_296.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_294.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "It implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_080.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_271.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_272.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_270.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, so if there's no force pulling it horizontally, that means there's no horizontal acceleration either, right? Like, it's just zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_086.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_274.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_275.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_273.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "If there's no horizontal force, that means there's no horizontal acceleration, so it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_080.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_277.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_278.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_276.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_150.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember Newton's Second Law of Motion, which relates force, mass, and acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_280.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_151.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there is no horizontal force, then the horizontal acceleration is zero. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_281.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_279.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "That means there's no horizontal acceleration! It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_082.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. If there is no horizontal force acting on an object, its horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_283.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_284.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_282.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_142.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the relationship between force, mass, and acceleration as described by Newton's Second Law of Motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_286.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It means the acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_143.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. If there is no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_287.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_288.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_285.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… if there’s no force, then there’s no acceleration?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_086.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_290.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_291.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_289.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_152.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that if there is no net force acting on an object, its acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_293.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_153.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_294.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_295.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_292.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, if there’s no horizontal force, then it just, like, doesn’t accelerate horizontally, right? Because it’s not really changing its speed or anything in that direction. It’s just staying constant, like we said. It’s just so much to keep all these different parts straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_089.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_297.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_298.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_296.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_1", + "message": "If there's no horizontal force, then the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_081.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! If there's no horizontal force, then the horizontal acceleration is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_272.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_273.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_271.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would mean there's no horizontal acceleration. Because if there's no force pushing it sideways, then its sideways speed isn't changing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_087.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! If there's no horizontal force, then there's no horizontal acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_275.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_276.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_274.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_3", + "message": "That implies the horizontal acceleration is zero. Since there's no horizontal force, there's no change in horizontal velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_081.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. If there's no horizontal force, then the horizontal acceleration is indeed zero. Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_278.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_279.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_277.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_152.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of Newton's Second Law of Motion, which explains the relationship between force, mass, and acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_281.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... if there's no force, then the acceleration is zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_153.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_282.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_283.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_280.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, so if there's no force, then there's no acceleration sideways either! Like, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_083.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! If there's no horizontal force, then the horizontal acceleration is indeed zero. Good Job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_285.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_286.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_284.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_6", + "message": "It means it's zero, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_144.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_288.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_289.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_287.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_7", + "message": "Um… it means there’s no horizontal acceleration then? Because it’s not speeding up or slowing down sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_087.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. If there's no horizontal force, then there's no horizontal acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_291.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_292.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_290.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_154.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of Newton's Second Law, which tells us how force and acceleration are related.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_294.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if there's no force, then there's no acceleration, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_155.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_295.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_296.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_293.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "If there's no horizontal force, what does that imply about the horizontal acceleration?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just, like, zero. Nothing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_090.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! If there's no horizontal force, it implies that the horizontal acceleration is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_298.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_299.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_297.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "children": [ + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in the downward direction due to gravity's constant downward acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_082.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_301.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_302.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_300.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so when it's launched horizontally, its vertical velocity starts at zero. But then gravity pulls it down, so it just keeps speeding up downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_088.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_304.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_305.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_303.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "For a horizontally launched projectile, its initial vertical velocity is zero. Then, as it moves, gravity causes its vertical velocity to continuously increase in the downward direction until it hits the ground. It just keeps getting faster going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_082.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_307.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_308.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_306.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_154.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the constant downward acceleration due to gravity acting on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_310.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... so, like, it starts at zero... and then it just keeps getting faster downwards because gravity is pulling it down more and more?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_155.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_311.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_312.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_309.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for a horizontally launched projectile, the vertical velocity starts at zero. But then gravity immediately starts pulling it down, so its downward speed keeps getting faster and faster as it falls towards the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_084.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in the downward direction due to the constant acceleration of gravity until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_314.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_315.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_313.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_145.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the effect of gravity on the vertical component of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_317.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It like, starts at zero and then gets faster going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_146.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_318.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_319.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_316.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, so it starts at zero, right? And then it just gets faster and faster going down because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_088.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_321.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_322.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_320.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_156.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the effect of gravity on the vertical component of the projectile's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_324.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_157.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in the downward direction due to the constant acceleration of gravity until it hits the ground. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_325.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_323.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "It just starts at zero, and then it just, like, gets faster downwards because gravity keeps pulling it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_091.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly described how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_327.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_328.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_326.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, so for a horizontally launched projectile, its initial vertical velocity is zero. Then, as it moves, gravity pulls it downwards, causing its vertical velocity to increase steadily in the downward direction until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_083.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_299.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_300.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_298.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for a horizontally launched projectile, the vertical velocity starts at zero. But then, as it falls, gravity pulls it down, so its vertical speed keeps increasing downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_089.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! You've perfectly described how the vertical velocity of a horizontally launched projectile changes. It starts at zero and continuously increases in the downward direction due to the constant acceleration of gravity until it hits the ground. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_302.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_303.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_301.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can definitely describe that! For a horizontally launched projectile, at the very moment it leaves its initial position, its initial vertical velocity is zero. But then, as it moves through the air, gravity starts pulling it downwards, so its vertical velocity continuously increases in the downward direction until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_083.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! For a horizontally launched projectile, the initial vertical velocity is indeed zero, and as it moves, its vertical velocity continuously increases in the downward direction due to gravity until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_305.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_306.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_304.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_156.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that gravity acts downwards, constantly accelerating the object in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_308.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so… if gravity is always pulling it down… and it's accelerating… then the vertical velocity just keeps getting faster? Like, going down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_157.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_309.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_310.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_307.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for a horizontally launched projectile, like when you roll a ball off a table, its vertical velocity starts at zero. There's no initial up or down push. But then, as soon as it leaves the table, gravity starts pulling it downwards. So, its vertical velocity begins to increase downwards, getting faster and faster towards the ground. It's like gravity is constantly speeding it up in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_085.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your description is accurate. The vertical velocity of a horizontally launched projectile starts at zero and continuously increases downwards due to the constant acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_312.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_313.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_311.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_147.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that gravity constantly pulls the projectile downwards, causing it to speed up in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_315.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It speeds up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_148.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You're right that it speeds up! Now, remember that for a horizontally launched projectile, what is its initial vertical velocity, and in which direction does it speed up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_316.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_317.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_314.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... okay. So, like, when it first leaves, its vertical speed is zero, right? Because it's only going sideways.\n\nBut then, gravity starts pulling it down. So its vertical speed just keeps getting faster and faster downwards, until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_089.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_319.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_320.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_318.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_158.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the force that acts vertically on the projectile and how it continuously affects the downward speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_322.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_159.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Initially, the vertical velocity of a horizontally launched projectile is zero. As it falls, gravity causes its vertical velocity to continuously increase in the downward direction until it hits the ground. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_323.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_321.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, so the vertical velocity... it just, like, gets faster? Yeah, because it's, uh, falling. So it speeds up, you know?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_092.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You're right that it speeds up because it's falling. That's a key part of it. Now, think about what the vertical velocity is right at the very beginning, the moment it leaves its initial position, especially for a horizontally launched projectile. Also, consider the direction of that increasing velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_325.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_326.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_324.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, for a horizontally launched projectile, the vertical velocity starts at zero. As soon as it leaves the initial position, gravity acts on it, causing its vertical velocity to increase downwards continuously until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_084.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_296.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_297.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_295.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for the vertical velocity, it starts at zero when it's launched horizontally. And then, as it falls, gravity just pulls it faster and faster downwards, right? So its vertical speed keeps increasing until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_090.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_298.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "When a horizontally launched projectile starts, its initial vertical velocity is zero. But as gravity pulls it down, its vertical velocity increases steadily downwards, getting faster and faster until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_084.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_300.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_301.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_299.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_158.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of how gravity continuously pulls the object downwards, affecting its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_303.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_159.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in the downward direction due to the constant acceleration of gravity until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_304.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_302.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so it starts at zero for vertical speed, because it's only going sideways at first. But right away, gravity pulls it down, so its vertical speed keeps getting faster and faster as it falls, always going downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_086.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_306.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_307.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_305.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_149.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that gravity constantly pulls objects downwards, causing their vertical speed to increase as they fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_309.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It starts at zero and just keeps getting faster because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_150.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_310.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_311.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_308.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So, like, when it first leaves, it's not moving down at all, right? So the vertical velocity is zero. But then gravity starts pulling it, so it just gets faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_090.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_313.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_314.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_312.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_160.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how gravity affects the downward speed of a falling object over time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_316.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so like, it starts at zero for vertical, but then gravity just keeps pulling it faster and faster downwards, right? So the downward speed just like, gets bigger and bigger?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_161.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_317.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_318.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_315.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Um, it just, like, goes faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_093.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "That's partially correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_320.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_321.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_319.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity of a horizontally launched projectile starts at zero. As it moves, gravity acts downwards, causing a constant downward acceleration. This means the vertical velocity continuously increases in the downward direction until the projectile hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_085.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_301.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_302.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_300.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so it starts with no vertical speed, right? Like zero. But then gravity pulls it down, so it just keeps getting faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_091.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_304.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_305.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_303.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for a horizontally launched projectile, its initial vertical velocity is zero. But then, as it moves, gravity acts on it, causing it to accelerate downwards. This means its vertical velocity continuously increases in the downward direction until it hits the ground. It just keeps getting faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_085.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_307.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_308.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_306.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_160.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how gravity continuously pulls the object downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_310.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, so, like, it, uh, gets faster downwards because gravity keeps pulling on it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_161.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_311.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_312.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_309.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so when it first launches horizontally, its vertical velocity is zero. But then, gravity starts pulling it down, so its vertical velocity constantly increases downwards, getting faster and faster until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_087.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_314.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_315.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_313.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_151.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that gravity constantly pulls the projectile downwards, affecting its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_317.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_152.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The vertical velocity of a horizontally launched projectile starts at zero and continuously increases downwards due to the constant acceleration of gravity. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_318.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_316.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it starts at zero… and then gravity pulls it down, so it just keeps getting faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_091.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_320.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_321.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_319.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw something horizontally and like, feel how fast it drops? I need to like, actually feel the speed change.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_162.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the constant force acting vertically on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_323.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw something horizontally and like, feel how fast it drops? I need to like, actually feel the speed change. So, like, it starts at zero 'cause it's just going forward, but then gravity pulls it down faster and faster? Can we just like, drop a ball and feel it speed up as it falls? I need to like, actually feel the acceleration.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_163.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_324.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_325.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_322.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, it just like, gets faster going down, you know? Like, it just keeps speeding up because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_094.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_327.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_328.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_326.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "When a horizontally launched projectile leaves its initial position, its initial vertical velocity is zero. As it moves, gravity acts downwards, causing a constant downward acceleration. This means its vertical velocity continuously increases in the downward direction until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_086.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_300.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_301.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_299.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for a horizontally launched projectile, its vertical velocity starts at zero. But then, as it falls, gravity makes it go faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_092.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Your description of how the vertical velocity of a horizontally launched projectile changes is accurate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_303.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_304.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_302.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, for a horizontally launched projectile, its initial vertical velocity is zero. Then, as it falls, its vertical velocity continuously increases in the downward direction because of the constant downward acceleration due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_086.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've accurately described how the vertical velocity of a horizontally launched projectile changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_306.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_307.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_305.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_162.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that gravity constantly pulls the projectile downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_309.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... it, like, starts at zero and then gets faster downwards because gravity pulls on it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_163.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The vertical velocity of a horizontally launched projectile starts at zero and then increases in magnitude downwards due to the constant acceleration of gravity until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_310.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_311.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_308.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so when it's horizontally launched, its initial vertical velocity is zero. But then gravity starts pulling it down, so its vertical velocity continuously increases downwards. It just keeps getting faster and faster towards the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_088.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! You've accurately described how the vertical velocity of a horizontally launched projectile changes: it starts at zero and continuously increases downwards due to gravity, getting faster and faster until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_313.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_314.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_312.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_153.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of how gravity constantly pulls the projectile downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_316.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_154.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "From the moment it leaves its initial position until it hits the ground, the vertical velocity of a horizontally launched projectile continuously increases in the downward direction due to the constant acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_317.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_315.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. It starts at zero vertical speed, and then it just gets faster and faster going downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_092.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_319.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_320.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_318.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My legs are seriously cramping up from sitting still so long. Can we please, please, please do something where we get to move around?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_164.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the constant force acting vertically downwards on the projectile and how that force affects its vertical speed over time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_322.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My brain is just totally fried from sitting still. Can we seriously just get up and do something, like, throw a ball or something? My legs are practically screaming!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_165.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "The vertical velocity of a horizontally launched projectile increases downwards due to the constant acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_323.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_321.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so at first, the vertical speed is, like, nothing, right? And then, it just, you know, gets faster and faster as it falls down. Gravity makes it do that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_095.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's an excellent description! You've correctly identified that the initial vertical velocity is zero and that it increases as the projectile falls due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_325.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_326.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_324.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "For a horizontally launched projectile, the initial vertical velocity is zero. As it moves, the vertical velocity increases downwards due to the constant downward acceleration of gravity, until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_087.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_298.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_299.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_297.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so the vertical velocity, it kinda starts at zero, right? Like, no up or down motion at first. But then, because of gravity, it just starts getting faster and faster as it goes down until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_093.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_301.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_302.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_300.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, I can explain that! When a horizontally launched projectile first leaves its initial position, its vertical velocity is actually zero. But then, because gravity is constantly pulling it downwards, its vertical velocity continuously increases in the downward direction, getting faster and faster until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_087.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! You perfectly described how the vertical velocity changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_304.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_305.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_303.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_164.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how gravity affects the downward speed of an object as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_307.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so like, it just keeps getting faster going down, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_165.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_308.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_309.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_306.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for a horizontally launched projectile, it starts with zero vertical velocity because it's only pushed sideways. But then gravity kicks in and constantly pulls it downwards. So, its vertical velocity starts at zero and then just keeps getting faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_089.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_311.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_312.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_310.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_155.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of the force that pulls the projectile downwards and how that force affects its vertical speed as time goes on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_314.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It just speeds up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_156.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're on the right track! Think about how gravity affects the vertical speed, specifically, if it adds speed at a steady pace or if the change in speed itself varies.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_315.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_316.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_313.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... when it starts, since it's just going sideways, the vertical speed is zero. Like, it's not falling yet. But then gravity pulls it, so it starts going down faster and faster. It just keeps speeding up downwards until it hits the ground. Ugh, it's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_093.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You totally nailed it. The vertical velocity starts at zero and then increases downwards due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_318.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_319.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_317.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_166.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Think of how gravity affects an object falling downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_321.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it just gets faster and faster going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_167.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_322.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_323.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_320.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so like, when it starts, it's not really going down at all. But then, as it falls, it just, you know, gets faster and faster going downwards until it hits the ground. That's how it changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_096.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! You totally got it – it starts at zero and increases downwards as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_325.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_326.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_324.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "When a horizontally launched projectile leaves its initial position, its initial vertical velocity is zero. As it moves, gravity acts on it, causing a constant downward acceleration. This means its vertical velocity continuously increases in the downward direction until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_088.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_300.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_301.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_299.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, okay! So when it first leaves, its vertical velocity is zero. But then, as it falls, gravity makes it go faster and faster downwards, so its vertical velocity keeps increasing the whole time until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_094.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_303.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_304.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_302.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for a horizontally launched projectile, at the very beginning, when it first leaves its initial position, its vertical velocity is actually zero. It's only moving sideways.\n\nBut then, as it moves through the air, gravity starts pulling it downwards. Because gravity is a constant downward force, it causes the vertical velocity to continuously increase in the downward direction. So, it starts at zero and then just keeps getting faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_088.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_306.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_307.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_305.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_166.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the constant force acting downwards on the projectile and how it affects the vertical speed over time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_309.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... so, it, like, starts at zero, and then it gets faster and faster downwards, teacher? Because of gravity pulling it?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_167.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_310.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_311.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_308.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so at first, its vertical velocity is zero. But as it falls, gravity pulls it down, so its vertical velocity keeps increasing downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_090.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in the downward direction due to the constant acceleration of gravity until it impacts the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_313.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_314.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_312.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_157.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of how gravity constantly acts downwards on the projectile, causing a continuous change in its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_316.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It starts at zero and then just gets faster going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_158.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer correctly identifies that the initial vertical velocity is zero and that its speed increases downwards. However, it could be more precise about the nature of this increase.\n\nThe vertical velocity of a horizontally launched projectile starts at zero and continuously increases in magnitude in the downward direction due to the constant downward acceleration of gravity until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_317.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_318.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_315.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… so, it starts at zero for vertical, right? And then gravity just makes it go faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_094.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_320.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_321.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_319.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_168.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that gravity causes a constant downward acceleration on the projectile, affecting its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_323.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just… I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_169.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "The vertical velocity of a horizontally launched projectile starts at zero and continuously increases in magnitude in the downward direction due to the constant acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_324.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_322.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, the vertical velocity? It just, like, starts at nothing, and then it gets faster as it goes down. It just keeps speeding up until it hits the ground. It’s just so much to keep straight, all these different speeds.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_097.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your description of the vertical velocity starting at zero and increasing in magnitude as it falls is correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_326.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_327.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_325.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_1", + "message": "For a horizontally launched projectile, its initial vertical velocity is zero. As it falls, gravity causes a constant downward acceleration, so its downward vertical velocity continuously increases until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_089.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job! Your description is accurate and complete.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_301.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_302.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_300.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for the vertical velocity... when it first starts, it doesn't have any up or down speed, it's just going sideways. But then gravity pulls it down, so it starts to get faster and faster going downwards until it lands.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_095.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've accurately described how the vertical velocity changes from zero and then increases in the downward direction due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_304.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_305.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_303.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, for a horizontally launched projectile, the vertical velocity starts at zero. Then, because gravity is constantly pulling it downwards, its vertical velocity increases steadily in the downward direction until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_089.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. For a horizontally launched projectile, the vertical velocity indeed starts at zero and then continuously increases downwards due to the constant acceleration of gravity until it strikes the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_307.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_308.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_306.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_168.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that gravity is always pulling the projectile downwards, and this force affects its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_310.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... so, like, it starts at zero... vertically, right? And then because gravity is pulling it down, it just... gets faster and faster downwards, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_169.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_311.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_312.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_309.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for a horizontally launched one, its vertical speed starts at zero. Then, as it falls, gravity pulls it down, so its vertical speed just keeps getting faster and faster downwards until it hits the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_091.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good Job! You've perfectly described how the vertical velocity of a horizontally launched projectile changes.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_314.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_315.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_313.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_159.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of how gravity continuously pulls the projectile downwards, increasing its speed in that direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_317.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It starts at zero and then just keeps getting faster going down because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_160.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, that's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_318.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_319.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_316.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_7", + "message": "Um, okay, so for the vertical velocity... when it starts, it's just going sideways, so its vertical speed is like, zero, right? And then, as gravity pulls it down, it just keeps getting faster and faster downwards until it hits the ground. It just keeps speeding up vertically.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_095.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a fantastic description! You've perfectly captured how the vertical velocity of a horizontally launched projectile starts at zero and then continuously increases downwards due to the constant pull of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_321.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_322.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_320.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_170.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that a horizontally launched projectile starts with no initial vertical speed. Think of how gravity acts on it as it moves through the air, causing it to fall faster and faster.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_324.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay, it starts with no vertical speed, and then it just gets faster and faster downwards because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_171.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_325.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_326.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_323.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Describe how the vertical velocity of a horizontally launched projectile changes from the moment it leaves its initial position until it hits the ground.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, it just, like, starts at zero and then it goes faster. Like, it just keeps speeding up because it's falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_098.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The vertical velocity of a horizontally launched projectile starts at zero and steadily increases downwards due to the constant acceleration of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_328.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_329.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_327.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "children": [ + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_090.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_330.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_331.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_329.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, if it's only pushed horizontally, then its vertical speed at the very beginning is zero, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_096.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_333.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_334.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_332.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "For a horizontally launched projectile that's only given an initial horizontal push, its initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_090.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_336.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_337.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_335.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_170.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of what \"horizontally launched\" implies about any initial upward or downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_339.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... if it's only horizontal, then it's not going up or down at the start... so it's, like, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_171.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_340.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_341.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_338.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! If it's only pushed horizontally, it doesn't have any initial up or down speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_092.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_343.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_344.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_342.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_161.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the vertical component of the velocity at the exact moment the projectile leaves its launch point.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_346.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um... zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_162.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_347.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_348.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_345.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_096.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_350.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_351.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_349.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_172.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the velocity component that is directed purely upwards or downwards at the moment of launch for an object thrown straight forward.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_353.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, if it's just going straight forward, then there's no up or down at the start, so it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_173.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_354.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_355.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_352.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, zero, I guess? Yeah, it's not going up or down at first, just sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_099.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_357.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_358.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_356.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "Its initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_091.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_328.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_329.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_327.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "It's zero. If it's only pushed horizontally, it doesn't have any upward or downward speed to start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_097.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! It's zero. If it's only pushed horizontally, it doesn't have any upward or downward speed to start, so its initial vertical velocity is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_331.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_332.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_330.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, the initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_091.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_334.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_335.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_333.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_172.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of what \"horizontally launched\" means for its vertical motion at the very start, before gravity has had a chance to act.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_337.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, if it's only horizontal… then, like, at the very beginning, it's not going up or down at all? So, it's… zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_173.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_338.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_339.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_336.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! Because there's no initial up or down movement, only the sideways push.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_093.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_341.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_342.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_340.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_163.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how much initial vertical movement the object has if it's only pushed sideways, not up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_344.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_164.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_345.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_346.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_343.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it would be zero, right? Because it's just going sideways at first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_097.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_348.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_349.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_347.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_174.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember the initial vertical velocity of a horizontally launched projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_351.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_175.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_352.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_353.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_350.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, it's just, like, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_100.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_355.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_356.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_354.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_092.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_323.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_324.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_322.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Your description of the vertical velocity for a horizontally launched projectile is accurate and complete.", + "responses": [ + { + "speaker": "student_2", + "message": "I think it's just how high it starts from, like, its initial height?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_098.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_326.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_327.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_328.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh, that would be zero, right? Like, it's just going sideways at the start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_099.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_329.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_330.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_325.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_092.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The initial vertical velocity of a horizontally launched projectile is zero.\nAlright, moving to the next one.\n\nDifferentiate between horizontally launched projectiles and angle-launched projectiles based on their initial motion and trajectory shape.\nIn both types of projectile motion, what is the consistent force acting on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_332.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_333.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_331.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… it starts at zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_174.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_335.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_336.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_334.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero. Because it's only getting pushed sideways at the start, not up or down at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_094.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_338.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_339.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_337.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_165.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that a horizontal launch means there's no initial upward or downward component to the velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_341.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_166.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_342.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_343.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_340.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's like, zero, right? Because it's only pushed sideways at first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_098.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_345.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_346.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_344.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_176.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how much initial vertical motion the projectile has if it's only launched straight sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_348.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it’s like, zero, right? Because it’s not going up or down at the beginning, just sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_177.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_349.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_350.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_347.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, it's just, like, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_101.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_352.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_353.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_351.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_093.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.\nThat's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_330.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_331.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_329.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be zero, right? Like, it's just going sideways at the start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_100.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_333.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_334.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_332.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_093.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_336.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_337.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_335.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_175.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of what 'horizontally launched' implies about any initial motion in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_339.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_176.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_340.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_341.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_338.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_095.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_343.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_344.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_342.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_167.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the vertical component of velocity at the exact moment the object is launched horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_346.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_168.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_347.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_348.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_345.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it starts at zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_099.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_350.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_351.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_349.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, push something off a table and see if it goes down right at the very start? I need to like, actually do it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_178.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how much vertical movement the projectile has at the exact moment it is launched horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_353.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, push something off a table and see if it goes down right at the very start? I need to like, actually do it. So if it's just pushed sideways, it's not going up or down yet, right? So like, it's not moving vertically at all at the start? Can we just like, slide something off a table and feel if it goes down immediately or if it waits a second? I need to actually feel if there's any up or down at the very start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_179.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_354.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_355.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_352.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just like, zero. You know? Because it's only going sideways at first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_102.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_357.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_358.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_356.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_094.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_328.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_329.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_327.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, if it's only pushed horizontally, then its initial vertical velocity would be zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_101.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. If it's only given an initial horizontal push, its initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_331.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_332.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_330.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_094.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_334.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_335.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_333.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_177.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Think of how much initial upward or downward motion a projectile has if it's only pushed perfectly sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_337.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_338.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_336.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! If it's only pushed horizontally, it doesn't have any upward or downward speed to start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_096.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! It is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_340.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_341.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_339.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_169.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of what its vertical speed is at the exact moment it's launched, if it's only propelled horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_343.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.\nUh, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_170.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_344.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_345.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_342.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_100.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_347.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_348.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_346.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. Seriously, can we just get up and do something, anything active? I'm practically bouncing off the walls from sitting so long!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_180.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of an object that is pushed perfectly sideways, and consider if that push gives it any initial movement up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_350.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_351.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_349.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just like, zero. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_103.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_353.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_354.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_352.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_095.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_328.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_329.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_327.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_102.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_331.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_332.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_330.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "Oh, I know this one! The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_095.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! It's totally zero. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_334.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_335.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_333.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_178.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how much vertical speed it has at the precise moment it starts moving, if it's only pushed sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_337.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_179.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_338.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_336.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! Because it's only pushed sideways to start with.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_097.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_340.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_341.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_339.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_171.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of how much initial upward or downward speed a ball has if you only push it perfectly straight forward off a table.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_343.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_344.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_342.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's zero. Like, it's not going up or down yet. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_101.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! The initial vertical velocity is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_346.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_347.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_345.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_181.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Think of what \"horizontally launched\" implies about its initial upward or downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_349.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero? Because it's only going sideways at first?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_182.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_350.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_351.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_348.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, zero. It's not going down yet.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_104.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it – it's zero.\nThat's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_353.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_354.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_352.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_096.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_329.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_330.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_328.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be zero, right? Like, it's only going sideways at first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_103.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_332.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_333.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_331.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "The initial vertical velocity would be zero. It only has horizontal velocity at the start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_096.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_335.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_336.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_334.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_180.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the velocity in the vertical direction at the precise moment the projectile is launched horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_338.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_181.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_339.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_340.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_337.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! If it's only pushed horizontally, it doesn't have any up or down speed to start with.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_098.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_342.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_343.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_341.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_172.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the initial vertical component of motion when an object is only pushed sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_345.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_173.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_346.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_347.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_344.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_102.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_349.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_350.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_348.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_183.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your response indicates you do not know the answer to the question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_352.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... totally blank.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_184.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that a horizontally launched projectile has no initial upward or downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_353.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_351.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that’s just, like, nothing, right? Because it’s only going sideways at the start. It's just so much to keep all these initial conditions straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_105.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_355.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_356.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_354.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_1", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_097.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The initial vertical velocity of a horizontally launched projectile is zero. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_331.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_332.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_330.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be zero. Like, it doesn't start with any up or down speed, just the sideways push.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_104.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The initial vertical velocity is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_334.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_335.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_333.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_3", + "message": "The initial vertical velocity of a horizontally launched projectile is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_097.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The initial vertical velocity of a horizontally launched projectile is indeed zero. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_337.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_338.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_336.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_182.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of an object like a ball rolling off a flat table. Consider its vertical speed at the precise moment it leaves the table.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_340.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... is it... zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_183.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_341.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_342.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_339.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! Because it's only pushed sideways at first.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_099.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_344.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_345.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_343.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_174.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that when we talked about horizontally launched projectiles, you already described what its initial vertical velocity is.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_347.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_175.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, that's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_348.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_349.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_346.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's zero, right? Because it's only pushed sideways at the start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_103.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. If it's only given an initial horizontal push, its initial vertical velocity is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_351.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_352.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_350.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_185.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that \"horizontally launched\" means the object is only given an initial push sideways, not upwards or downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_354.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_186.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_355.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_356.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_353.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the initial vertical velocity of a horizontally launched projectile if it's only given an initial horizontal push?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, it's just zero. Like, it just starts at nothing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_106.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The initial vertical velocity of a horizontally launched projectile is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_358.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_359.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_357.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "children": [ + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "As it ascends, the vertical velocity decreases. At its maximum height, the vertical velocity is zero. As it descends, the vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_098.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_360.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_361.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_359.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so as it goes up, the vertical velocity gets slower until it reaches the highest point, where it's zero. And then as it comes back down, it starts speeding up again, but downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_105.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_363.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_364.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_362.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for an angle-launched projectile, as it ascends, its vertical velocity decreases because gravity is constantly pulling it downwards. When it reaches its maximum height, its vertical velocity becomes zero for just an instant. Then, as it descends, its vertical velocity increases in the downward direction, getting faster and faster due to gravity. It's really neat how it changes direction and speed like that.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_098.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_366.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_367.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_365.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_184.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how the constant downward acceleration due to gravity affects the upward motion, the instantaneous velocity at the peak, and the increasing speed during the downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_369.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... so, when it goes up, like, the upward speed gets slower because gravity is pulling it down. And then, at the very top, it just, like, stops for a tiny moment, so the vertical speed is zero. And then when it comes down, it just gets faster and faster downwards. Is that... is that right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_185.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_370.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_371.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_368.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so as an angle-launched projectile goes up, its vertical speed slows down because gravity is pulling it against its motion. Then, at its highest point, its vertical speed is actually zero for just a moment before it starts coming back down. And as it comes down, gravity makes its vertical speed increase, making it go faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_100.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. As an angle-launched projectile ascends, its vertical velocity decreases until it reaches zero at the maximum height, and then its vertical velocity increases in the downward direction as it descends.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_373.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_374.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_372.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_176.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how gravity continuously pulls the object downwards, affecting its upward speed, its speed at the peak, and its speed as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_376.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um, it slows down going up, stops at the top, and then speeds up going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_177.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_377.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_378.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_375.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So, like, when it goes up, it slows down, right? Until it stops at the top. And then it just falls faster and faster.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_104.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Your description is correct, but can you be more precise about the specific values or trends of the vertical velocity at each stage.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_380.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_381.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_379.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_187.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember that gravity constantly pulls the projectile downwards, affecting its vertical motion throughout its trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_383.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_188.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "The vertical velocity of an angle-launched projectile decreases as it ascends, becomes zero at its maximum height, and then increases in the downward direction as it descends. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_384.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_382.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "So it like, goes up, and it slows down, right? Then at the very top, it kinda stops, just for a second. And then it just, like, speeds up going down. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_107.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You accurately described the behavior of vertical velocity for an angle-launched projectile at each stage of its motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_386.wav?download=true" + }, + { + "speaker": "student_9", + "message": "So the horizontal, it just keeps going the same way, you know? And the vertical, at the top, it's just, like, nothing. Yeah, it stops.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_108.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_387.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_388.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_385.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, so for an angle-launched projectile, as it ascends, its vertical velocity decreases until it reaches zero at its maximum height. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_099.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_358.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_359.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_357.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so as an angle-launched projectile goes up, its vertical velocity slows down until it reaches the highest point where it's zero for a moment. Then, as it comes back down, its vertical velocity starts to increase again, just in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_106.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. As an angle-launched projectile ascends, its vertical velocity decreases until it momentarily becomes zero at its maximum height, and then it increases in the downward direction as it descends.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_361.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_362.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_360.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can explain that! For an angle-launched projectile, as it ascends, its vertical velocity decreases because gravity is pulling it downwards and slowing it down. Then, at its maximum height, its vertical velocity becomes momentarily zero. After that, as it descends, its vertical velocity increases in the downward direction due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_099.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! You've accurately described how the vertical velocity of an angle-launched projectile decreases as it ascends, becomes momentarily zero at its maximum height, and then increases in the downward direction as it descends.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_364.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_365.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_363.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_186.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that gravity constantly acts downwards, causing a consistent acceleration in the vertical direction, whether the object is moving up or down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_367.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so, like, when it goes up, gravity is pulling it down, so it… slows down, right? And then, at the very top, it like, stops for a second, so it’s zero? And then when it comes down, gravity is pulling it the same way it’s going, so it… speeds up?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_187.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_368.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_369.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_366.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so for an angle-launched one, like kicking a ball high up. When it's going up, the vertical velocity starts positive but gravity is slowing it down, so it gets smaller and smaller until it reaches the very top of its path. At that highest point, its vertical velocity is zero for just a split second, like it pauses. Then, as it starts coming back down, gravity makes its vertical velocity increase, but this time it's downwards, so it gets faster and faster towards the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_101.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your description is perfectly accurate. As an angle-launched projectile ascends, its vertical velocity decreases until it momentarily becomes zero at its maximum height. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_371.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_372.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_370.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_178.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that gravity is always pulling the projectile downwards, so consider how that affects its upward motion, its instantaneous velocity at the peak, and its downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_374.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It slows down going up, stops at the top, and then speeds up going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_179.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Nice Work.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_375.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_376.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_373.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... okay. So, like, when it goes up, it slows down because gravity's pulling it back. Then, at the very top, it stops for just a second, like, zero vertical speed. And then, when it comes back down, it just speeds up again because gravity's pulling it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_105.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_378.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_379.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_377.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_189.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how gravity pulls against the upward motion, what happens to the vertical speed at the highest point, and how gravity aids the downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_381.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. So, like, when it goes up, it slows down because gravity pulls it. Then at the very top, it stops for a second, like, the up-and-down speed is zero. And then when it comes down, it speeds up because gravity pulls it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_190.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Nice work! You've accurately described the behavior of the vertical velocity throughout the projectile's motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_382.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_383.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_380.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so it, um, goes up, then stops, and then, uh, goes down. Like, it changes direction, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_109.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "You're right about the motion and change in direction. Now, describe the magnitude of the vertical velocity in each of those phases. How does its speed change as it goes up, at the very top, and as it comes down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_385.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_386.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_384.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "Okay, for an angle-launched projectile, as it ascends, its vertical velocity decreases due to gravity pulling it downwards. At its maximum height, the vertical velocity becomes zero for an instant. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_100.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_355.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_356.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_354.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an angle-launched projectile, when it's going up, the vertical velocity slows down. Then, at the very top, it's zero for a moment. And then as it comes back down, the vertical velocity starts increasing again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_107.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_358.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_359.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_357.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "For an angle-launched projectile, as it ascends, its vertical velocity decreases until it reaches its maximum height, where its vertical velocity becomes zero for an instant. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_100.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_361.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_362.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_360.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_188.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of how gravity continuously affects the vertical component of the projectile's velocity throughout its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_364.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… so when it goes up, the vertical velocity, um, it slows down because gravity is pulling it. And at the very top, it just… stops for a second, so it’s zero. And then when it comes down, it gets faster, um, because gravity is pulling it down more.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_189.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_365.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_366.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_363.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so as it goes up, its vertical speed gets slower and slower because gravity is pulling it down. Then, at the very top, for just a split second, its vertical speed is zero. And then as it comes back down, its vertical speed starts getting faster and faster again, but now it's going downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_102.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_368.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_369.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_367.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_180.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Try to imagine throwing a ball straight up in the air and consider how its speed changes at different points in its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_371.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It slows down going up, stops at the top, and then speeds up coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_181.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_372.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_373.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_370.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. So when it goes up, the vertical speed slows down, like, gravity is pulling it back. Then at the very top, it stops for a second, so the vertical speed is zero. And then it starts falling, so the vertical speed gets faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_106.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_375.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_376.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_374.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_191.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how the upward speed changes as gravity acts against it, and how the downward speed changes as gravity acts with it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_378.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so like, it starts fast going up, but then it slows down because gravity is pulling it, right? And then at the very top it like, stops for a split second? And then it starts going faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_192.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_379.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_380.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_377.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Um, it just, like, slows down when it goes up, then it stops, and then it speeds up again going down. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_110.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_382.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_383.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_381.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "For an angle-launched projectile, as it ascends, its vertical velocity decreases due to gravity. At its maximum height, its vertical velocity momentarily becomes zero. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_101.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_360.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_361.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_359.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so when it goes up, its vertical speed gets slower and slower. Then at the very top, it stops for a second, so its vertical speed is zero. And then when it comes back down, it starts getting faster and faster again, but downwards this time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_108.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_363.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_364.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_362.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so as an angle-launched projectile ascends, its vertical velocity is positive and decreases due to gravity. Then, at its maximum height, the vertical velocity momentarily becomes zero. After that, as it descends, the vertical velocity becomes negative and increases in magnitude because gravity is pulling it downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_101.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_366.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_367.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_365.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_190.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that gravity constantly pulls the object downwards, affecting its vertical speed.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_369.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, so, like, it, uh, slows down as it goes up, then it's zero at the top, and then it, uh, speeds up as it comes down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_191.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_370.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_371.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_368.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so as it goes up, the vertical velocity slows down until it hits zero right at the very top. Then, as it comes back down, it starts speeding up again, but downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_103.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_373.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_374.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_372.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_182.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that gravity acts downwards, constantly affecting the vertical speed of the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_376.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_183.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The vertical velocity of an angle-launched projectile decreases as it ascends, becomes zero at its maximum height, and then increases downwards as it descends. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_377.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_375.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… when it goes up, it slows down… then it just stops for a second at the top… and then it goes down and gets faster again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_107.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_379.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_380.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_378.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw a ball up and then catch it? I need to like, feel it slow down and then speed up.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_193.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how gravity affects the vertical motion of the projectile throughout its flight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_382.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw a ball up and feel it slow down and then speed up? I need to like, actually feel what happens.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_194.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "As an angle-launched projectile ascends, its vertical velocity decreases due to gravity. At its maximum height, its vertical velocity becomes zero. As it descends, its vertical velocity increases in the downward direction. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_383.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_381.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, it like, goes up and then slows down, then stops at the top, and then just goes faster going down, you know?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_111.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_385.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_386.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_384.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "As an angle-launched projectile ascends, its vertical velocity decreases due to gravity. At its maximum height, its vertical velocity is momentarily zero. As it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_102.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_356.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_357.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_355.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, okay, so for an angle-launched one, when it goes up, its vertical velocity gets slower and slower. Then, at the very top, it's zero for a moment. And then, when it comes back down, it starts getting faster and faster again, but downwards this time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_109.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Your description of the vertical velocity for an angle-launched projectile as it ascends, reaches its maximum height, and descends is accurate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_359.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_360.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_358.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, for an angle-launched projectile, as it ascends, its vertical velocity decreases until it reaches its maximum height, where its vertical velocity momentarily becomes zero. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_102.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've accurately described the behavior of an angle-launched projectile's vertical velocity throughout its motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_362.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_363.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_361.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_192.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that gravity is always pulling the projectile downwards, affecting its vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_365.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_193.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, as it ascends, its vertical velocity decreases until it becomes zero at the maximum height. As it descends, its vertical velocity increases in the downward direction. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_366.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_364.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so as it goes up, its vertical velocity is positive but it keeps getting smaller because gravity is pulling it down. Right at the very top, at its maximum height, the vertical velocity is zero for a split second. Then, as it comes back down, the vertical velocity becomes negative and gets faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_104.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_367.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_184.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of how gravity affects the upward motion, then the very top, and then the downward motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_369.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, it slows down going up, stops at the top, and then speeds up coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_185.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_370.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_371.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_368.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, okay. It just gets slower and slower going up, then it just stops for a second at the very top, and then it just gets faster and faster going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_108.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_373.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_374.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_372.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. Can we just, like, throw something and see what happens? My body needs to move!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_195.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nRemember that gravity constantly acts downwards. Consider how this downward pull affects an object's upward velocity, what its vertical velocity becomes at the very top of its path, and how it then speeds up on the way down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_376.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it slows down going up because gravity pulls it down, right? And then at the very top, it stops for a second, like, the vertical speed is zero? And then it speeds up again coming down because gravity is still pulling it down? Ugh, my legs are killing me, teacher. Can we please just do something active?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_196.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_375.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, okay, so when it goes up, it like, slows down vertically. And then at the top, it just, like, stops for a second. And then coming down, it speeds up again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_112.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's an excellent description! You've perfectly captured how the vertical velocity changes throughout the trajectory of an angle-launched projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_378.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_379.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_377.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "During ascent, the vertical velocity decreases until it reaches zero at the maximum height. Then, as it descends, the vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_103.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_356.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_357.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_355.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so when it's going up, the vertical velocity gets slower and slower. Then at the very top, it's zero for a moment. And then when it comes back down, it starts getting faster again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_110.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's spot on for all three phases.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_359.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_360.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_358.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, I can explain that! For an angle-launched projectile, as it ascends, its vertical velocity is positive but decreases due to gravity pulling it downwards. When it reaches its maximum height, its vertical velocity momentarily becomes zero. Then, as it descends, its vertical velocity becomes negative and increases in magnitude, getting faster and faster downwards, again because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_103.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_362.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_363.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_361.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_194.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how gravity affects the upward motion, then the very top, and then the downward motion of something thrown into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_365.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, so like, when it goes up, it slows down? And at the very top, it like, stops for a moment? And then when it comes down, it speeds up again, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_195.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_366.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_367.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_364.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so when an angle-launched projectile goes up, its vertical velocity starts fast upwards but slows down because gravity is pulling it. Then, at its highest point, its vertical velocity is actually zero for just a moment before it starts coming back down. And as it comes down, its vertical velocity increases downwards, getting faster and faster because gravity is pulling it that way.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_105.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_369.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_370.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_368.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_186.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of how gravity constantly pulls the projectile downwards, affecting its upward speed when it's going up and its downward speed when it's coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_372.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Um, it slows down going up. And then it's zero at the top. And then it speeds up coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_187.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_373.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_374.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_371.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... when it goes up, the vertical speed slows down because gravity pulls it back. At the very top, it's like, zero for a second. Then when it comes back down, it starts speeding up again because gravity pulls it faster and faster. Ugh, it's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_109.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! You totally explained the behavior of the vertical velocity perfectly.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_376.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_377.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_375.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_197.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's nail this! Think of how gravity affects an object thrown straight up into the air.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_379.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it slows down going up, stops at the top, and then speeds up going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_198.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_380.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_381.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_378.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Okay, so, like, when it goes up, it gets slower. And then, at the top, it just, you know, stops for a second. And then when it comes down, it just gets faster again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_113.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good job! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_383.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_384.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_382.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "As an angle-launched projectile ascends, its vertical velocity decreases until it reaches zero at its maximum height. Then, as it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_104.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_358.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_359.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_357.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an angle-launched one, when it's going up, its vertical velocity gets slower and slower. Then, at the very top, it stops for just a second, like it hits zero. And then, as it comes back down, its vertical velocity starts getting faster and faster again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_111.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_361.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_362.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_360.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, so for an angle-launched projectile, as it ascends, its vertical velocity decreases. Gravity is pulling it downwards, slowing its upward motion.\n\nWhen it reaches its maximum height, its vertical velocity becomes zero for just an instant, before it starts falling back down.\n\nThen, as it descends, its vertical velocity increases in the downward direction because gravity continues to pull it down, making it go faster and faster.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_104.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Excellent explanation. You have correctly described the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_364.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_365.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_363.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_196.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of how gravity continuously slows down the projectile as it rises, what happens to its vertical speed at the very top of its path, and how gravity speeds it up as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_367.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... so, like, when it goes up, it slows down because of gravity, teacher? And then at the very top, it stops for a second, like, vertically? And then it speeds up again as it comes down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_197.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_368.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_369.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_366.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so when it goes up, its vertical velocity slows down until it hits zero at the very top. Then, as it comes back down, its vertical velocity starts increasing, but downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_106.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. As an angle-launched projectile ascends, its vertical velocity decreases until it momentarily becomes zero at the maximum height. As it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_371.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_372.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_370.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_188.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of how gravity constantly affects the vertical component of the projectile's motion throughout its entire path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_374.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It slows down going up, stops at the top, and then speeds up going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_189.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. As an angle-launched projectile ascends, its vertical velocity decreases until it momentarily becomes zero at its maximum height, and then it increases in magnitude in the downward direction as it descends.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_375.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_376.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_373.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… so when it goes up, gravity slows it down. Then at the very top, it’s zero for a tiny bit, and then it goes faster and faster downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_110.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_378.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_379.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_377.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_199.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer is incorrect because you stated \"I don't know\" and did not attempt to describe the behavior of the vertical velocity.\n\nRemember that gravity continuously acts downwards, slowing the projectile as it rises, momentarily stopping it at its highest point, and then speeding it up as it falls.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_381.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_382.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_380.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, for an angle-launched one? It just, like, goes up, so it slows down vertically. Then it stops for a second at the top. And then it just starts speeding up again as it comes back down. It’s just so much to remember all these different stages.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_114.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_384.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_385.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_383.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_1", + "message": "As an angle-launched projectile ascends, its upward vertical velocity decreases due to gravity. At its maximum height, the vertical velocity momentarily becomes zero. As it descends, its downward vertical velocity increases because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_105.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! That's a perfect description of how the vertical velocity behaves.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_361.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_362.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_360.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_2", + "message": "Okay, so for an angle-launched one... when it's going up, its vertical speed gets slower and slower because gravity is pulling it down. Then, at the very top, it actually stops moving up or down for just a split second. And then, as it comes back down, its vertical speed starts getting faster and faster again because gravity is still pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_112.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_363.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, for an angle-launched projectile, as it ascends, its upward vertical velocity steadily decreases due to gravity pulling it downwards. When it reaches its maximum height, its vertical velocity momentarily becomes zero. Then, as it descends, its vertical velocity increases steadily in the downward direction, again because of gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_105.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. You've perfectly described how the vertical velocity behaves for an angle-launched projectile: decreasing on the way up, momentarily zero at the peak, and increasing downwards on the way down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_365.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_366.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_364.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_198.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of gravity constantly pulling the projectile downwards, affecting its upward and downward vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_368.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh... I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_199.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "As an angle-launched projectile ascends, its vertical velocity decreases due to gravity acting against its upward motion. At its maximum height, the vertical velocity momentarily becomes zero. As it descends, the vertical velocity increases in the downward direction due to gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_369.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_367.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, so as it goes up, its vertical speed slows down because gravity is pulling it against its movement. Then, at the very top, its vertical speed is zero for just a second. And as it comes back down, its vertical speed gets faster and faster because gravity is pulling it in the same direction it's going.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_107.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've accurately described the vertical velocity's journey: it decreases to zero at the peak, then increases as it descends. Good Job! That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_371.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_372.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_370.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_190.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of how gravity continuously pulls the object downwards, first slowing its upward motion, then making it momentarily stop, and finally making it speed up as it falls back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_374.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.\nIt slows down going up, stops at the top, and then speeds up going down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_191.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, that's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_375.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_376.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_373.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_7", + "message": "Um... okay, so when it goes up, its vertical speed gets slower and slower because gravity is pulling it down. Then, at the very top, it stops for just a second, so its vertical speed is zero. And then, when it starts coming down, it gets faster and faster downwards, like when something's falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_111.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's an excellent explanation! You've perfectly described the vertical velocity's journey.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_378.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_379.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_377.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_200.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that gravity is constantly pulling the projectile downwards. Think about how a ball slows down as it goes up, momentarily stops at the very top, and then speeds up as it comes back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_381.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_201.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, as it ascends, its vertical velocity decreases due to gravity pulling it downwards. At its maximum height, the vertical velocity momentarily becomes zero. As it descends, its vertical velocity increases in the downward direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_382.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_380.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "For an angle-launched projectile, describe the behavior of its vertical velocity as it ascends, reaches its maximum height, and then descends.", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, so, like, when it goes up, it slows down. And then at the very top, it just, like, stops for a second, right? And then it comes back down and just speeds up again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_115.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! Your description is spot on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_384.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_385.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_383.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "children": [ + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_106.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_390.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_391.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_389.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, at the very top, the vertical velocity is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_113.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_393.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_394.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_392.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "At the peak of an angle-launched projectile's trajectory, the vertical velocity becomes zero. It's the exact moment it stops going up and before it starts coming down. That point of stillness before the fall is really interesting.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_106.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_396.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_397.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_395.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_200.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_399.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_400.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_398.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_108.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_402.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_403.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_401.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_192.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the numerical value of velocity when an object is momentarily at rest.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_405.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_193.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_406.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_407.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_404.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's like, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_112.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_409.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_410.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_408.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_202.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the point where the projectile momentarily stops moving upwards before it begins to fall downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_412.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_203.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_413.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_414.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_411.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, zero, you know? It stops for a second.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_116.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_416.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_417.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_415.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "It reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_107.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_388.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_389.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_387.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_114.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_391.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_392.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_390.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, at the peak of an angle-launched projectile's trajectory, its vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_107.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! At the peak of an angle-launched projectile's trajectory, its vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_394.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_395.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_393.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_201.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember what you just said about the vertical velocity at the very top of its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_397.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, it’s… zero? Because it stops for a second, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_202.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_398.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_399.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_396.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, it's zero! For just a moment it stops moving up or down at the top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_109.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_401.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_402.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_400.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_194.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of what happens to the vertical motion of an object exactly at the moment it transitions from moving upwards to moving downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_404.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_195.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_405.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_403.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's zero, right? Like, it stops for a second up there.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_113.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_407.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_408.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_406.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_204.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember what you just said happens to the vertical speed at the very top of its path.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_410.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, okay. It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_205.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_411.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_412.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_409.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Uh, it just, like, stops. So it's, um, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_117.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_414.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_415.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_413.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "It becomes zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_108.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_385.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_386.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_384.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be zero, right? Like, it just stops going up for a second.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_115.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_388.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_389.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_387.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_108.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory. That's all for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_391.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_392.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_390.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… it’s zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_203.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_394.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_395.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_393.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! For just that one instant at the very top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_110.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_397.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_398.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_396.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_196.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_400.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_401.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_399.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's zero. Like, it stops for a second before it starts coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_114.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_403.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_404.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_402.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_206.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of what \"stops for a split second\" means in terms of its velocity at that exact moment.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_406.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so it’s like, zero, then? Because it stops?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_207.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_407.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_408.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_405.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, it's just, like, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_118.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_410.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_411.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_409.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_109.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_388.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_389.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_387.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, it's zero. Like, it stops moving up or down at that exact moment.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_116.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_391.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_392.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_390.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "It reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_109.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_394.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_395.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_393.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_204.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of what happens to the object momentarily before it starts falling back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_397.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_205.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_398.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_399.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_396.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It reaches zero right at the top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_111.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_401.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_402.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_400.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_197.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_404.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_405.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_403.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it's like, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_115.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_407.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_408.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_406.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw a ball up and feel it stop for a second at the top? I need to like, actually feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_208.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of what happens to the upward motion just before the downward motion begins.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_410.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, throw a ball up and feel it stop for a second at the top? I need to like, actually feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_209.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The specific value the vertical velocity reaches at the peak of an angle-launched projectile's trajectory is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_411.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_409.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just like, nothing, right? Because it stops.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_119.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_413.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_414.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_412.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_110.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_381.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_382.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_380.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's zero again! Just for a moment at the very top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_117.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. It reaches zero at the very top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_384.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_385.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_383.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "At the peak of an angle-launched projectile's trajectory, the vertical velocity becomes zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_110.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! At the peak of an angle-launched projectile's trajectory, the vertical velocity does indeed become zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_387.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_388.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_386.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_206.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that at the very top of its flight, the projectile momentarily stops moving upwards before it starts falling downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_390.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it like, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_207.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_391.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_392.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_389.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've accurately described how the vertical velocity behaves throughout the trajectory of an angle-launched projectile.", + "responses": [ + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_394.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_395.wav?download=true" + }, + { + "speaker": "student_5", + "message": "It's zero! Just for that one tiny moment at the very top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_112.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! It is indeed zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_396.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_397.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_393.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_198.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of what \"stops\" means in terms of an object's speed or velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_399.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_199.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_400.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_401.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_398.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_116.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_403.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_404.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_402.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! You've accurately described the vertical velocity for each phase of an angle-launched projectile's motion.", + "responses": [ + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_406.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_407.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My legs are seriously bouncing from sitting so long! Can we please just do something where we get to actually do stuff, not just talk?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_210.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of the moment the projectile stops rising and is about to start falling.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_408.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero, right? Like it stops for a split second before it falls? Ugh, teacher, seriously, can we just get up and do something? I'm practically squirming in my seat!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_211.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_409.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_410.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_405.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, it's just like, zero. Yeah, it stops at the top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_120.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_412.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_413.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_411.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_111.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_386.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_387.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_385.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, at the very top, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_118.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_389.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_390.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_388.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "It reaches zero! At the peak of its trajectory, the vertical velocity of an angle-launched projectile is zero for just an instant.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_111.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It totally reaches zero at the peak.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_392.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_393.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_391.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_208.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Remember that at the very top of its path, before it starts falling back down, the projectile momentarily stops moving upwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_395.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_209.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_396.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_397.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_394.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! For just that one instant at the very top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_113.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_399.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_400.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_398.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "teacher: I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_200.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of what happens to the vertical motion of the projectile for a brief instant when it stops going up and hasn't started coming down yet.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_402.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_201.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_403.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_404.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_401.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's zero. Like, it stops going up for a second at the top. It's a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_117.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_406.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_407.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_405.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_212.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's figure this out! Think of what value 'stops' implies for velocity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_409.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, zero?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_213.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_410.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_411.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_408.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "It just, like, stops, so it's, you know, zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_121.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it – it reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_413.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_414.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_412.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_112.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_387.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_388.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_386.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, at the very top, the vertical velocity becomes zero, right? Like, it just stops moving up for a moment before it starts coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_119.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_390.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_391.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_389.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "At the peak, its vertical velocity reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_112.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_393.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_394.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_392.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_210.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that at the highest point of its path, the projectile momentarily stops moving upwards before it begins to fall downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_396.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_211.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_397.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_398.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_395.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It reaches zero! It stops going up before it starts coming down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_114.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_400.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_401.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_399.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_202.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the vertical motion of an object exactly at the moment it stops moving upwards before starting its descent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_403.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_203.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_404.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_405.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_402.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_118.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_407.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_408.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_406.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_214.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that at the highest point of its trajectory, the projectile momentarily stops its vertical movement before beginning to fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_410.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_215.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_411.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_412.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_409.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, at the top? It just, like, stops for a moment, right? So, it's just, like, nothing. It’s just so much to keep track of all these numbers.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_122.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_414.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_415.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_413.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_1", + "message": "The specific value the vertical velocity reaches at the peak is zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_113.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The vertical velocity reaches a value of zero at the peak of an angle-launched projectile's trajectory. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_387.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_388.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_386.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've perfectly described how the vertical velocity changes throughout the trajectory of an angle-launched projectile.", + "responses": [ + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_390.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_391.wav?download=true" + }, + { + "speaker": "student_2", + "message": "Oh, at the very top, it would be zero. Like, it stops moving up or down for that moment.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_120.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! At the peak of an angle-launched projectile's trajectory, the vertical velocity indeed reaches zero. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_392.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_393.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_389.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_3", + "message": "The vertical velocity reaches zero at the peak of an angle-launched projectile's trajectory.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_113.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The vertical velocity indeed reaches zero at the peak of an angle-launched projectile's trajectory. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_395.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_396.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_394.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh... is it... zero, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_212.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_398.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_399.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_397.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_5", + "message": "It's zero! Just for a moment.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_115.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_401.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_402.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_400.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_6", + "message": "It's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_204.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_404.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_405.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_403.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's zero, right? Like I said before, it stops for a second at the top.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_119.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. At the peak of an angle-launched projectile's trajectory, the vertical velocity momentarily reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_407.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_408.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_406.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_216.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that at the very top of its path, an object launched upwards briefly pauses before coming back down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_410.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_217.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_411.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_412.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_409.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What specific value does the vertical velocity reach at the peak of an angle-launched projectile's trajectory?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just zero. Like, it just stops.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_123.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! At the peak of an angle-launched projectile's trajectory, the vertical velocity momentarily reaches zero.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_414.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_415.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_413.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "children": [ + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "They are considered independent because the force of gravity, which affects vertical motion, acts only in the vertical direction and does not have any horizontal component. Therefore, it does not affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_114.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_419.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_420.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_418.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, well, I think it's because gravity only pulls things down, so it only affects the vertical movement. There's nothing really pushing or pulling it sideways, so the horizontal part just goes on its own.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_121.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_422.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_423.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_421.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent of each other is because the force of gravity, which is the only significant force acting on a projectile, acts exclusively in the vertical direction. There are no horizontal forces, so the horizontal motion isn't affected by gravity's pull or by what's happening vertically. And similarly, the vertical motion is only affected by gravity, not by how fast the object is moving horizontally. It's like they're happening in parallel without interfering with each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_114.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_425.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_426.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_424.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_213.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the direction in which the primary force of gravity acts on the projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_428.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... I'm not really sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_214.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent is that the force of gravity, which is the only significant force acting on the projectile, acts solely in the vertical direction and has no component in the horizontal direction. This means that gravity affects only the vertical motion, leaving the horizontal motion unaffected. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_429.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_427.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "It's because gravity only pulls down, right? It doesn't affect the sideways motion at all. So, the horizontal and vertical parts just do their own thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_116.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. The primary reason is that gravity, the only significant force acting on the projectile (neglecting air resistance), acts solely in the vertical direction and has no component in the horizontal direction, thus not influencing the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_431.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_432.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_430.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_205.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of the direction in which the force of gravity acts.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_434.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because gravity only acts vertically.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_206.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_435.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_436.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_433.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because gravity only pulls down, right? It doesn't, like, push it sideways. So they don't mess with each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_120.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_438.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_439.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_437.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_218.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Think of how forces acting in one dimension do not affect motion in a perpendicular dimension.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_441.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_219.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent of each other is that the force of gravity acts only in the vertical direction and does not affect the horizontal motion. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_442.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_440.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "It's just, like, gravity only pulls down, you know? It doesn't like, push it sideways. So they just do their own thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_124.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "You correctly identified that gravity acts only in the vertical direction and does not influence horizontal motion, which is the primary reason for the independence of the two components of projectile motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_444.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_445.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_443.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "It's because the horizontal and vertical forces acting on the projectile are independent. Gravity acts only vertically and doesn't affect the horizontal motion, and there are no horizontal forces to affect the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_115.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_417.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_418.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_416.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "It's because gravity only pulls down, so it only affects the up-and-down movement, and there's nothing really pushing it side to side. So they just do their own thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_122.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good Job! You are absolutely correct. The primary reason the horizontal and vertical motions of a projectile are considered independent is that gravity only acts vertically, affecting only the vertical motion, while there are no horizontal forces (neglecting air resistance) to influence the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_420.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_421.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_419.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, I can definitely explain that! The primary reason is that the force of gravity, which is the only force acting on the projectile (if we ignore air resistance), acts only in the vertical direction. There are no forces acting horizontally. Because of this, the horizontal motion doesn't affect the vertical motion, and the vertical motion doesn't affect the horizontal motion, so they're completely independent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_115.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! The primary reason is that gravity acts only in the vertical direction, causing vertical acceleration, while there are no horizontal forces (neglecting air resistance), meaning no horizontal acceleration. This allows the horizontal and vertical components of motion to be analyzed separately without affecting each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_423.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_424.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_422.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_215.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that there is no force acting horizontally on a projectile, and only gravity acts vertically.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_426.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, so… because there’s, like, no force going sideways… and then gravity is only pulling it down? So they don’t, um, influence each other?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_216.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_427.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_428.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_425.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "That's because the force of gravity, which is the only force acting on the projectile, only pulls it downwards, vertically. It doesn't have any effect on how it's moving sideways. So, the horizontal and vertical motions don't interfere with each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_117.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job! Your explanation is perfectly accurate. The primary reason is indeed that the force of gravity acts only in the vertical direction and does not affect the horizontal motion, making the two components independent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_430.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_431.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_429.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_207.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the forces affecting the horizontal motion (like air resistance, often ignored) and the vertical motion (gravity) act perpendicular to each other and do not affect one another.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_433.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, because the forces are perpendicular and don't affect each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_208.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_434.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_435.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_432.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because gravity only pulls things down, right? It doesn't push them sideways. So, like, the sideways motion just does its own thing without gravity messing with it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_121.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_437.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_438.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_436.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_220.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of how forces act separately in the horizontal and vertical directions and how they don't influence each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_440.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I dunno.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_221.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "The horizontal and vertical components of motion are independent because gravity only acts vertically, affecting only the vertical motion, while there is no force (ignoring air resistance) acting horizontally to affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_441.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_439.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, because, like, gravity only pulls down, right? It doesn't, like, pull it sideways. So they just kind of, uh, work separately.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_125.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_443.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_444.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_442.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "They are independent because the force of gravity only acts vertically, meaning it doesn't affect the horizontal motion at all. And since there are no other horizontal forces, the horizontal and vertical components don't influence each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_116.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_413.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_414.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_412.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I think it's because gravity only pulls things down, right? So it doesn't really mess with how things move sideways. They just don't affect each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_123.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_416.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_417.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_415.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary reason they're considered independent is because gravity, the main force acting on the projectile, only pulls downwards, vertically. There are no horizontal forces, so the horizontal motion isn't affected by the vertical motion at all, and vice versa.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_116.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. The primary reason the horizontal and vertical motions of a projectile are considered independent is because the force of gravity acts only in the vertical direction, causing vertical acceleration, while there are no horizontal forces to affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_419.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_420.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_418.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_217.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Think of how forces acting in one direction do not affect motion or forces in a perpendicular direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_422.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… because the forces in one direction don't affect the motion in the other direction that's like, perpendicular?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_218.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_423.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_424.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_421.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "Okay, it's because gravity only acts downwards, right? It literally has no effect on anything moving sideways. So, the vertical motion and the horizontal motion don't influence each other at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_118.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_426.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_427.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_425.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_209.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how the forces acting on the projectile affect only one dimension of its motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_429.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because the forces only affect one direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_210.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "The horizontal motion is unaffected by gravity, which only acts vertically, and there are no horizontal forces to affect the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_430.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_428.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because gravity only pulls down, it doesn't push it sideways. So they don't mess with each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_122.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_432.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_433.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_431.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_222.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Think of how gravity only affects motion in one specific direction, and not the other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_435.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because gravity only pulls down, right? It doesn't push it sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_223.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_436.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_437.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_434.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, because gravity just pulls it down, and not like, sideways. Yeah.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_126.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_439.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_440.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_438.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary reason they are independent is that gravity, the only force acting on the projectile, only affects its vertical motion. There is no force acting horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_117.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_416.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_417.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_415.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I think it's because gravity only pulls it downwards, right? So it doesn't affect how the object is moving sideways at all. They just kind of do their own thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_124.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_419.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_420.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_418.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, it's because the force of gravity, which is the only significant force acting on the projectile, only acts in the vertical direction. There are no horizontal forces influencing the motion, so the horizontal and vertical components don't affect each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_117.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_422.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_423.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_421.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_219.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of how gravity only acts in the vertical direction and does not affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_425.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm, is it, uh, because gravity only pulls downwards and not, uh, sideways?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_220.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_426.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_427.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_424.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because gravity only pulls things downwards, right? So it only affects the vertical motion, and there's no force pushing or pulling it horizontally, so that part just keeps going independently.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_119.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_429.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_430.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_428.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_211.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the distinct forces acting on the projectile in the horizontal and vertical directions.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_432.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_212.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent of each other is that the force of gravity acts only in the vertical direction, causing vertical acceleration, while there is no force (ignoring air resistance) acting in the horizontal direction, resulting in no horizontal acceleration. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_433.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_431.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… because gravity only pulls down, it doesn't mess with the sideways movement. So they're like, separate?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_123.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_435.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_436.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_434.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. Can we just like, roll a ball off a table and also drop one straight down at the same time? I need to like, actually see if they hit the floor at the same time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_224.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Think of the forces acting on the projectile in the horizontal and vertical directions.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_438.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, is it because like, there's no sideways forces acting on it, only gravity pulling it down? So like, the side-to-side movement isn't messed with by the up-and-down movement? Can we just like, throw a ball straight and watch it fall, and then throw another one straight up and down at the same time and see if they still fall at the same rate? I need to actually see if they do different things at the same time.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_225.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_439.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_440.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_437.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just like, because gravity only pulls it down, not sideways, you know? So they just do their own thing.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_127.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_442.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_443.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_441.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "They are considered independent because gravity only acts vertically, so it only affects the vertical motion. There are no forces acting horizontally to change the horizontal motion, so the horizontal and vertical motions don't influence each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_118.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! That's correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_415.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_416.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_414.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's because gravity only pulls things down, vertically, right? It doesn't push them sideways. So, what happens horizontally doesn't affect what happens vertically, and vice versa.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_125.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. Your explanation that gravity only acts vertically and does not affect the horizontal motion is precisely why the two motions are independent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_418.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_419.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_417.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary reason is that gravity, which is the only significant force acting on the projectile, only affects the vertical motion. It doesn't have any horizontal component, so it doesn't influence the horizontal motion at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_118.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good job! You've precisely stated the primary reason.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_421.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_422.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_420.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_221.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that gravity acts only in the vertical direction and does not affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_424.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it because gravity only pulls down and doesn't push it sideways at all?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_222.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! The primary reason is that gravity, the only force acting on the projectile (neglecting air resistance), acts solely in the vertical direction and has no effect on the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_425.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_426.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_423.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "It's because gravity only acts vertically, so it doesn't affect the horizontal motion at all. And the horizontal motion doesn't change how gravity pulls it down either.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_120.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! That's precisely the primary reason: gravity, the only force acting on the projectile (ignoring air resistance), acts purely in the vertical direction, meaning it has no influence on the horizontal motion, and the horizontal motion does not affect the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_428.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_429.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_427.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_213.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of which specific force acts only in the vertical direction and has no component acting horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_431.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Uh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_214.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent is that gravity, the only force acting on the projectile (neglecting air resistance), acts solely in the vertical direction and has no effect on the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_432.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_430.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, because gravity only pulls it down, not sideways.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_124.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_434.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_435.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_433.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. My body is just craving some movement right now, I can't even focus on this! Can we please, please, please just do an experiment or something active?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_226.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nThink of what forces are acting on the projectile and in which directions they act.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_437.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, so like, the horizontal motion has no force acting on it, right? And the vertical motion only has gravity pulling it down? Since those forces are separate and go different ways, they don't affect each other, so the motions are independent? Ugh, my body is seriously vibrating from sitting so long, teacher. Can we just do an activity where we actually do something?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_227.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Good Job! You're absolutely right. The horizontal and vertical motions are independent because the only significant force acting on the projectile (gravity) acts solely in the vertical direction, having no effect on the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_438.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_439.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_436.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, um, it's like, they just don't really affect each other. Because gravity, it only pulls down, so it doesn't, like, change the sideways speed. And then the sideways speed doesn't make it fall faster or anything.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_128.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "That's a very good explanation! You've correctly identified that they don't affect each other because gravity only acts vertically, and the horizontal motion doesn't influence the vertical fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_441.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_442.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_440.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "They are considered independent because the force of gravity only affects the vertical motion, and there are no horizontal forces acting on the projectile, so the horizontal motion isn't affected by the vertical.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_119.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally spot on. You totally nailed why they're independent. That's it for that item!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_416.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_417.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_415.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's because gravity only pulls down, right? So it doesn't mess with the sideways motion at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_126.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally got it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_419.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_420.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_418.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "They're considered independent because the only force acting on the projectile, which is gravity, acts purely in the vertical direction. It doesn't have any horizontal component, so it doesn't affect the horizontal motion at all, and the horizontal motion doesn't affect the vertical.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_119.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's totally it. Gravity only pulls things down, so it doesn't mess with the side-to-side motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_422.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_423.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_421.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Um, I'm not really sure, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_223.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No cap, it's totally chill. Think of how forces acting in one direction don't affect forces or motion in a perpendicular direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_425.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Oh, um, is it like, because the forces are, like, totally separate and don't mess with each other, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_224.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "That's getting there, but to be super precise, it's because the force of gravity acts only vertically, and there are no horizontal forces acting on the projectile (ignoring air resistance). These forces act independently along perpendicular axes, so they don't affect each other's components of motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_426.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_424.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "Oh, that's because gravity only pulls downwards, so it only affects the vertical motion. There isn't any horizontal force acting on the projectile to change its sideways movement. So, they basically just happen independently of each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_121.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good Job! That's totally it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_428.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_429.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_427.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_215.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Think of how gravity, the main force affecting the projectile, acts only in one direction and doesn't interfere with the motion in the other direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_431.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because gravity only pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_216.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_432.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_433.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_430.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because gravity only pulls down. It doesn't push or pull sideways. So what happens sideways doesn't change what happens up and down. Ugh, it's just... a lot.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_125.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work! That's totally it. The independence comes from gravity acting only vertically, which doesn't affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_435.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_436.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_434.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_228.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, let's nail this! Think of the direction that gravity pulls things.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_438.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, gravity only pulls down, right? So it doesn't mess with the sideways stuff.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_229.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_439.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_440.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_437.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that's just because, like, what happens going sideways doesn't really affect what happens going up and down. They're just, you know, separate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_129.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're definitely on the right track that they're separate! Now, let's get super specific about why they don't affect each other. Think of the forces acting on the projectile in each direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_442.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_443.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_441.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary reason is that gravity, the only force acting on the projectile, only acts vertically. It doesn't have any horizontal component, so it doesn't affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_120.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_417.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_418.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_416.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, it's because the forces acting on it in each direction are totally separate. Gravity only pulls it down vertically, and there's no force pushing or pulling it horizontally. So they don't affect each other at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_127.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_420.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_421.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_419.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "The primary reason they're considered independent is because gravity, the only force acting on the projectile after launch, only affects the vertical motion. It doesn't have any horizontal component. So, the horizontal motion isn't affected by gravity, and the vertical motion isn't affected by any horizontal forces, making them separate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_120.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Excellent explanation. You have correctly stated the primary reason the horizontal and vertical motions of a projectile are considered independent of each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_423.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_424.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_422.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_225.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that the force of gravity acts only in the vertical direction and does not affect the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_426.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it because gravity only pulls things down, teacher? And not sideways?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_226.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_427.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_428.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_425.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "It's because the forces acting on them are totally separate! Gravity only pulls things down vertically, and there's nothing pulling it sideways horizontally, so they don't mess with each other at all.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_122.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. The primary reason is that the horizontal and vertical forces acting on the projectile are independent; gravity only affects the vertical motion, and there is no horizontal force to influence the horizontal motion, allowing them to be analyzed separately.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_430.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_431.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_429.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_217.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of how forces acting in one direction do not affect motion in a perpendicular direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_433.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.\nBecause the forces don't affect motion in other directions.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_218.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Because the forces don't affect motion in other directions is partially correct, but it lacks specificity regarding the nature of the forces. The primary reason the horizontal and vertical motions of a projectile are considered independent of each other is that the force of gravity acts only in the vertical direction and has no horizontal component. Therefore, it does not affect the horizontal motion, which remains constant (assuming no air resistance). That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_434.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_435.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_432.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… because gravity only pulls it down, not sideways? So they don't mess with each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_126.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_437.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_438.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_436.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_230.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that forces acting in one direction do not influence motion in a perpendicular direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_440.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, because... like, the forces only affect their own direction? Like, side-to-side doesn't mess with up-and-down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_231.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_441.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_442.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_439.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, they're just, like, separate, right? Because one doesn't really mess with the other one. It's just so much to keep all these separate parts straight.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_130.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Your answer indicates an understanding that the motions are separate, but it doesn't fully explain the underlying physical reason for this independence.\n\nThink of the forces acting on the projectile in each direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_444.wav?download=true" + }, + { + "speaker": "student_9", + "message": "Oh, because the forces are different in each direction, right? Like, there’s nothing pushing it sideways, but gravity only pulls it down. It’s just so much to keep straight, all these different forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_131.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_445.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_446.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_443.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_1", + "message": "The primary reason they're independent is because the force of gravity only acts vertically, and there are no horizontal forces to affect the horizontal motion. So, what happens vertically doesn't influence what happens horizontally.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_121.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The primary reason they are independent is that the force of gravity acts only vertically, and there are no horizontal forces to influence the horizontal motion, making them completely separate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_417.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_418.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_416.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_2", + "message": "Hmm, I think it's because gravity only works up and down, it doesn't affect the side-to-side movement. And there aren't any forces pushing it horizontally once it's launched.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_128.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've precisely hit on the key reason: the force of gravity acts only in the vertical direction, and assuming no air resistance, there are no forces acting in the horizontal direction. This means what happens vertically doesn't influence what happens horizontally, and vice-versa.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_420.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_421.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_419.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_3", + "message": "Okay, the primary reason they're considered independent is because the force of gravity, which is the only significant force acting on a projectile, only affects the vertical motion. It doesn't have any effect on the horizontal motion, and there are no other horizontal forces acting on the object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_121.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The primary reason is precisely what you said: gravity acts only vertically, affecting only the vertical motion, and there are no horizontal forces (neglecting air resistance) to influence the horizontal motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_423.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_424.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_422.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_4", + "message": "I... I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_227.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that the force of gravity acts only in the vertical direction and has no effect on the horizontal movement of an object.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_426.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... because gravity only pulls it down, not sideways, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_228.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_427.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_428.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_425.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_5", + "message": "It's because gravity only pulls down, like, it only affects the vertical motion. It doesn't push or pull sideways at all, so the horizontal motion just does its own thing without gravity messing with it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_123.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've perfectly captured the essence of why they are independent: gravity, the primary force, acts solely in the vertical direction, leaving the horizontal motion unaffected.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_430.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_431.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_429.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_219.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of the specific forces acting on the projectile in the horizontal direction and the forces acting in the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_433.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Because gravity only affects the vertical motion and there are no horizontal forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_220.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. That's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_434.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Let's continue with the next question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_435.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_432.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... because gravity only pulls it down, so it doesn't mess with the sideways motion? And there's nothing pulling it sideways, so that doesn't mess with the up and down? It's just like, they don't affect each other.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_127.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "That's a very good way to put it! You've grasped the core concept.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_437.wav?download=true" + }, + { + "speaker": "student_7", + "message": "Um... it's like, the sideways part and the up-and-down part, right? Like, how fast it's going horizontally and how fast it's going vertically at the start.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_128.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. The primary reason is precisely what you said: gravity acts only in the vertical direction and does not affect the horizontal motion, and assuming no air resistance, there are no horizontal forces to influence the vertical motion. They are indeed independent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_438.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_439.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_436.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_232.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Think of how the forces acting on the projectile only affect motion in one direction, leaving the motion in the perpendicular direction unaffected.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_441.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_233.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "The primary reason the horizontal and vertical motions of a projectile are considered independent of each other is that the force of gravity, which affects the vertical motion, has no component in the horizontal direction, and thus does not influence the horizontal motion. Conversely, there are no horizontal forces to affect the vertical motion (ignoring air resistance).", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_442.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_440.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "What is the primary reason the horizontal and vertical motions of a projectile are considered independent of each other?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just because gravity only pulls things down. Like, it doesn't affect how fast something is going sideways, you know? So they're just, like, separate.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_132.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! You've precisely articulated the primary reason. Because gravity acts only in the vertical direction, it does not influence the horizontal motion, allowing the two components to be analyzed independently.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_444.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Alright, moving to the next one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_445.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_443.wav?download=true" + } + ] + }, + { + "speaker": "question", + "message": "Since they are independent, what force affects only the vertical motion?", + "children": [ + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_122.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_447.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_448.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_446.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's gravity, for sure.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_129.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_450.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_451.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_449.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "The force that affects only the vertical motion is gravity. It's the one pulling it down, and it doesn't touch the horizontal motion at all, which is why they're independent.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_122.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_453.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_454.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_452.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... is it gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_229.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_456.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_457.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_455.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That would be gravity. It only pulls things down, which is the vertical direction.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_124.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct. Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_459.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_460.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_458.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_221.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_462.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_463.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_461.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's gravity again, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_129.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_465.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_466.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_464.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_234.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Remember the force that consistently pulls objects towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_468.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, that's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_235.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_469.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_470.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_467.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "It's gravity. Always gravity, you know?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_133.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_472.wav?download=true" + }, + { + "speaker": "teacher_1", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_473.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_1_471.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_123.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Good job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_446.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_447.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_445.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "It's gravity that only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_130.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct. It is gravity that only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_449.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_450.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_448.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "Teacher, that's gravity! Gravity is the force that only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_123.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct! Gravity is indeed the force that only affects the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_452.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_453.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_451.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "I… I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_230.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Remember that the only force acting on a projectile in the vertical direction is a specific force that pulls objects towards the Earth. What is that force called.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_455.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um, it’s… gravity? Because it’s the one that pulls things towards the Earth, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_231.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_456.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_457.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_454.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It only pulls things down, so it only affects the up and down movement.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_125.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_459.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_460.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_458.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_222.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Think of the consistent force that acts vertically on all objects near Earth's surface.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_462.wav?download=true" + }, + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_223.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "The force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_463.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_464.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_461.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... is it gravity again? Because it only pulls down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_130.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_466.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_467.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_465.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, okay. Is it... gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_236.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_469.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_470.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_468.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, gravity. Just, uh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_134.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_472.wav?download=true" + }, + { + "speaker": "teacher_2", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_473.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_2_471.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_124.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_442.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_443.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_441.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's just gravity, isn't it? It only pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_131.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_445.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_446.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_444.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "Since they are independent, the force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_124.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct. Since they are independent, the force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_448.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_449.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_447.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Um… I don’t know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_232.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "You said you don't know the answer. Remember that only one force consistently acts downwards on a projectile.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_451.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um… is it gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_233.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_452.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_453.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_450.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "It's gravity! That's the only one that pulls it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_126.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_455.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_456.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_454.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_224.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_458.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_459.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_457.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's gravity again, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_131.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_461.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_462.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_460.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I just don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_237.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Remember that the force which always pulls objects towards the Earth affects vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_464.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it’s just gravity, isn’t it? It always comes back to gravity!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_238.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_465.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_466.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_463.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Um, it's just gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_135.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_468.wav?download=true" + }, + { + "speaker": "teacher_3", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_469.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_3_467.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_125.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_445.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_446.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_444.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's just gravity, right?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_132.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_448.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_449.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_447.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_125.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_451.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_452.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_450.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_234.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember that the only force acting on a projectile in the vertical direction is the one that pulls it downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_454.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uh, I don't really know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_235.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "The force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_455.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_456.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_453.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It only pulls things straight down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_127.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_458.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_459.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_457.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "Ugh, I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_225.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Remember the force that consistently pulls objects downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_461.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Ugh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_226.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_462.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_463.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_460.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_132.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_465.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_466.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_464.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, is it… gravity? Can we just like, drop something and feel it pulling straight down? I need to like, actually feel it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_239.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_468.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_469.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_467.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Uhm, it's just gravity, you know? Like, that's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_136.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_471.wav?download=true" + }, + { + "speaker": "teacher_4", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_472.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_4_470.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_126.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_444.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_445.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_443.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's easy! It's gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_133.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. It's gravity again.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_447.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_448.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_446.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_126.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity affects only the vertical motion. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_450.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_451.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_449.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... I don't know the answer.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_236.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! Let's think about this together. Remember that there's a force that continuously pulls objects towards the ground.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_453.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Um... is it like, gravity?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_237.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_454.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_455.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_452.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_128.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct! Gravity is indeed the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_457.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_458.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_456.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_227.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Think of the force that always pulls things downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_460.wav?download=true" + }, + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_228.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_461.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_462.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_459.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, that's just gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_133.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_464.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_465.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_463.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. I'm practically gonna explode from sitting still, teacher! Can we please just do something active?!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_240.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "No worries at all! We can work through it together.\n\nRemember that primary force that pulls everything towards the Earth and causes objects to fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_467.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, I really don't know, teacher. I'm practically gonna explode from sitting still, teacher! Can we please just do something active?!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_241.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "The force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_468.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_469.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_466.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, uh, it's just, like, gravity. Always gravity, I guess.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_137.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_471.wav?download=true" + }, + { + "speaker": "teacher_5", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_472.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_5_470.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_127.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_445.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_446.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_444.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_134.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! That's it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_448.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_449.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_447.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "It's gravity! Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_127.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! Gravity totally affects only the vertical motion. That's all for that question.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_451.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_452.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_450.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Oh, um, is it like, gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_238.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_454.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_455.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_453.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That would be gravity! It's the only one pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_129.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! You totally nailed it.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_457.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_458.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_456.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_229.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "No worries, fam! Remember that we've discussed the main force that acts downwards on all objects, pulling them towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_460.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_230.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Nice work!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_461.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_462.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_459.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh, it's still gravity. That's the only one pulling down. It's just... a lot to remember everything.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_134.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct! It's still gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_464.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_465.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_463.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_242.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_467.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_468.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_466.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just, like, that same force, you know? The one that pulls things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_138.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "You're totally right! It's that same force – gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_470.wav?download=true" + }, + { + "speaker": "teacher_6", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_471.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_6_469.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "Gravity affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_128.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_448.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_449.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_447.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that's gravity! It only pulls things down, so it only affects the up and down movement.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_135.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_451.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_452.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_450.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_128.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_454.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_455.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_453.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Uhm... I really don't know, teacher. Sorry.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_239.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the force that constantly pulls objects towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_457.wav?download=true" + }, + { + "speaker": "student_4", + "message": "Uhm... is it... is it gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_240.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. That's it for that item.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_458.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_459.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_456.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It's the only one pulling things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_130.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_461.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_462.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_460.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "I don't know.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_231.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Think of the consistent force that pulls everything towards the Earth.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_464.wav?download=true" + }, + { + "speaker": "student_6", + "message": "Gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_232.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct. Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_465.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_466.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_463.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Ugh… still gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_135.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_468.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_469.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_467.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know. My brain's just... I can't think right now.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_243.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Remember that the only force acting downwards on a projectile is the one that causes it to fall.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_471.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity? The thing that pulls stuff down?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_244.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_472.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_473.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_470.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Oh, that’s just, like, gravity, right? The one that pulls it down. It’s just so much to remember all these different forces.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_139.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Good Job.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_475.wav?download=true" + }, + { + "speaker": "teacher_7", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_476.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_7_474.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_1", + "message": "The force that affects only the vertical motion is gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_1_129.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! The force that affects only the vertical motion is indeed gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_447.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_448.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_446.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_2", + "message": "Oh, that would be gravity. It only pulls things down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_2_136.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! That's right, gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_450.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_451.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_449.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_3", + "message": "Gravity is the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_3_129.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is indeed the force that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_453.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_454.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_452.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_4", + "message": "Um... is it... gravity, teacher?", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_4_241.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_456.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_457.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_455.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_5", + "message": "That's gravity! It's the only one pulling it down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_5_131.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_459.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_460.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_458.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_6", + "message": "It's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_6_233.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Good job, that's absolutely right!", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_462.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_463.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_461.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_7", + "message": "Um... it's gravity, isn't it? The thing that pulls down.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_7_136.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct. Gravity is the force that affects only the vertical motion.\nGood, let's move on.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_465.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_466.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_464.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_8", + "message": "Ugh, I don't know, teacher.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_245.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Remember that the only force acting on a projectile (ignoring air resistance) is the one that pulls it directly downwards.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_468.wav?download=true" + }, + { + "speaker": "student_8", + "message": "Ugh, it's gravity.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_8_246.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_469.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_470.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_467.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Since they are independent, what force affects only the vertical motion?", + "responses": [ + { + "speaker": "student_9", + "message": "Ugh, it's just gravity again. Like, it's always that one.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/student_9_140.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Correct! It is indeed gravity that affects only the vertical motion.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_472.wav?download=true" + }, + { + "speaker": "teacher_8", + "message": "Goodbye! Have a great day.", + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_473.wav?download=true" + } + ], + "audio": "https://huggingface.co/datasets/mon1111/audio-files/resolve/main/teacher_8_471.wav?download=true" + } + ] + } + ] +} \ No newline at end of file