id
string | background
string | situation
string | question
string | answers
sequence |
|---|---|---|---|---|
3679796833 | Many chemicals that were once commonly used were later found out to be harmful to the environment , to human health, or both. The element lead was once a common additive to gasoline and to paint. Plumbing pipes were once typically made of lead. Only since the 1970s has the danger of lead become apparent. It causes brain damage and small children (who often chewed on objects painted with lead-based paint) are particularly susceptible. The use of lead in gasoline, paint, and plumbing pipes is now banned and new materials are being developed to replace the hazardous lead components. | There is a study being conducted on a group of small children. Group A is a group from a town that was rated highest quality water in the United States, while Group B is from Flint, Michigan, where it was found that lead was in their water supply. | Which group has a higher likely hood of brain damage? | {
"text": [
"Group B"
]
} |
2664709651 | Many chemicals that were once commonly used were later found out to be harmful to the environment , to human health, or both. The element lead was once a common additive to gasoline and to paint. Plumbing pipes were once typically made of lead. Only since the 1970s has the danger of lead become apparent. It causes brain damage and small children (who often chewed on objects painted with lead-based paint) are particularly susceptible. The use of lead in gasoline, paint, and plumbing pipes is now banned and new materials are being developed to replace the hazardous lead components. | There is a study being conducted on a group of small children. Group A is a group from a town that was rated highest quality water in the United States, while Group B is from Flint, Michigan, where it was found that lead was in their water supply. | Which group has a lower likely hood of brain damage? | {
"text": [
"Group A"
]
} |
802833727 | Many chemicals that were once commonly used were later found out to be harmful to the environment , to human health, or both. The element lead was once a common additive to gasoline and to paint. Plumbing pipes were once typically made of lead. Only since the 1970s has the danger of lead become apparent. It causes brain damage and small children (who often chewed on objects painted with lead-based paint) are particularly susceptible. The use of lead in gasoline, paint, and plumbing pipes is now banned and new materials are being developed to replace the hazardous lead components. | There is a study being conducted on a group of small children. Group A is a group from a town that was rated highest quality water in the United States, while Group B is from Flint, Michigan, where it was found that lead was in their water supply. | Is Group A more or less likely to be found with brain damage than Group B? | {
"text": [
"less"
]
} |
806962495 | Many chemicals that were once commonly used were later found out to be harmful to the environment , to human health, or both. The element lead was once a common additive to gasoline and to paint. Plumbing pipes were once typically made of lead. Only since the 1970s has the danger of lead become apparent. It causes brain damage and small children (who often chewed on objects painted with lead-based paint) are particularly susceptible. The use of lead in gasoline, paint, and plumbing pipes is now banned and new materials are being developed to replace the hazardous lead components. | There is a study being conducted on a group of small children. Group A is a group from a town that was rated highest quality water in the United States, while Group B is from Flint, Michigan, where it was found that lead was in their water supply. | Is Group B more or less likely to be found with brain damage than Group A? | {
"text": [
"more"
]
} |
459624881 | Iron is first oxidized to iron(II) ions by oxygen. In the second step, the iron(II) ions are further oxidized and combine with water and oxygen gas to produce a hydrated form of iron(III) oxide known as rust. Rusting is one of many example of corrosion. Corrosion is the deterioration of metals by redox processes. Corrosion causes enormous amounts of damage to buildings, bridges, ships, cars, and other objects. It has been estimated that corrosion costs the U.S. economy over 100 billion dollars each year. A great amount of time and effort is spent to try to limit or prevent corrosion. | Aaron is doing a science experiment for school. He is trying to see what happens to different iron objects in different conditions. He has two samples that he is testing. Sample A he has placed in a dark dry room away from the elements. Sample B he has placed outside under no cover, so it will be rained on. | Which sample will most likely rust first? | {
"text": [
"Sample B"
]
} |
2050513369 | Iron is first oxidized to iron(II) ions by oxygen. In the second step, the iron(II) ions are further oxidized and combine with water and oxygen gas to produce a hydrated form of iron(III) oxide known as rust. Rusting is one of many example of corrosion. Corrosion is the deterioration of metals by redox processes. Corrosion causes enormous amounts of damage to buildings, bridges, ships, cars, and other objects. It has been estimated that corrosion costs the U.S. economy over 100 billion dollars each year. A great amount of time and effort is spent to try to limit or prevent corrosion. | Aaron is doing a science experiment for school. He is trying to see what happens to different iron objects in different conditions. He has two samples that he is testing. Sample A he has placed in a dark dry room away from the elements. Sample B he has placed outside under no cover, so it will be rained on. | Which sample will most likely not show many signs of corrosion? | {
"text": [
"Sample A"
]
} |
1353408677 | Iron is first oxidized to iron(II) ions by oxygen. In the second step, the iron(II) ions are further oxidized and combine with water and oxygen gas to produce a hydrated form of iron(III) oxide known as rust. Rusting is one of many example of corrosion. Corrosion is the deterioration of metals by redox processes. Corrosion causes enormous amounts of damage to buildings, bridges, ships, cars, and other objects. It has been estimated that corrosion costs the U.S. economy over 100 billion dollars each year. A great amount of time and effort is spent to try to limit or prevent corrosion. | Aaron is doing a science experiment for school. He is trying to see what happens to different iron objects in different conditions. He has two samples that he is testing. Sample A he has placed in a dark dry room away from the elements. Sample B he has placed outside under no cover, so it will be rained on. | Will Sample A be more or less likely to show signs of corrosion compared to Sample B? | {
"text": [
"less"
]
} |
1358061733 | Iron is first oxidized to iron(II) ions by oxygen. In the second step, the iron(II) ions are further oxidized and combine with water and oxygen gas to produce a hydrated form of iron(III) oxide known as rust. Rusting is one of many example of corrosion. Corrosion is the deterioration of metals by redox processes. Corrosion causes enormous amounts of damage to buildings, bridges, ships, cars, and other objects. It has been estimated that corrosion costs the U.S. economy over 100 billion dollars each year. A great amount of time and effort is spent to try to limit or prevent corrosion. | Aaron is doing a science experiment for school. He is trying to see what happens to different iron objects in different conditions. He has two samples that he is testing. Sample A he has placed in a dark dry room away from the elements. Sample B he has placed outside under no cover, so it will be rained on. | Will Sample B be more or less likely to show signs of corrosion compared to Sample A? | {
"text": [
"more"
]
} |
1885492047 | If a nuclear chain reaction is uncontrolled, it produces a lot of energy all at once. This is what happens in an atomic bomb. However, if a nuclear chain reaction is controlled, it produces energy much more slowly. This is what occurs in a nuclear power plant. The reaction is controlled by inserting rods of nonfissioning material into the fissioning material. You can see this in the Figure below . The radiation from the controlled fission is used to heat water and turn it to steam. The steam is under pressure and causes a turbine to spin. The spinning turbine runs a generator, which produces electricity. | The city has recently come upon some nuclear material and is wanting to use it for power generation. They are not sure how to implement it safely and have devised several strategies which include an uncontrolled reaction and a controlled reaction of the material. | Which strategy is better suited for generating power? | {
"text": [
"controlled reaction"
]
} |
75191145 | If a nuclear chain reaction is uncontrolled, it produces a lot of energy all at once. This is what happens in an atomic bomb. However, if a nuclear chain reaction is controlled, it produces energy much more slowly. This is what occurs in a nuclear power plant. The reaction is controlled by inserting rods of nonfissioning material into the fissioning material. You can see this in the Figure below . The radiation from the controlled fission is used to heat water and turn it to steam. The steam is under pressure and causes a turbine to spin. The spinning turbine runs a generator, which produces electricity. | The city has recently come upon some nuclear material and is wanting to use it for power generation. They are not sure how to implement it safely and have devised several strategies which include an uncontrolled reaction and a controlled reaction of the material. | Which strategy is not a good idea for generating power? | {
"text": [
"uncontrolled reaction"
]
} |
442460526 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city should Bill move to to satisfy his goals? | {
"text": [
"Seattle"
]
} |
1235118279 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city should Bill avoid to satisfy his goals? | {
"text": [
"St. Louis"
]
} |
1956275734 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city will more likely have acid rain? | {
"text": [
"St. Louis"
]
} |
1629973236 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city will more likely have more vibrant wildlife? | {
"text": [
"Seattle"
]
} |
3338694047 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city will most likely have more sulfur oxides in the air? | {
"text": [
"St. Louis"
]
} |
3344330147 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Which city will most likely have less sulfur oxides in the air? | {
"text": [
"Seattle"
]
} |
2832230966 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Will St. Louis have more or less acid rain than Seattle? | {
"text": [
"more"
]
} |
3111610934 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Will Seattle have more or less acid rain than St. Louis? | {
"text": [
"less"
]
} |
802123740 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Will Seattle have more or less sulfur oxides in the air than St. Louis? | {
"text": [
"less"
]
} |
410873820 | One result of air pollution is acid rain. Acid rain is precipitation with a low (acidic) pH. This rain can be very destructive to wildlife. When acid rain falls in forests, freshwater habitats, or soils, it can kill insects and aquatic life. It causes this damage because of its very low pH. Sulfur oxides and nitrogen oxides in the air both cause acid rain to form ( Figure below ). Sulfur oxides are chemicals that are released from coal-fired power plants. Nitrogen oxides are released from motor vehicle exhaust. | Bill is planning on moving soon. He wants to move to a city that has fresher air and more wildlife to see. His two options that he must choose from are St. Louis and Seattle. Recently, Seattle has installed a new wind farm, and zero emission solar farm to generate power, while St. Louis recently installed a coal fired power plant. Both cities have similar commercial and industrial sectors, and only differ in how they generate power. | Will St. Louis have more or less sulfur oxides in the air than Seattle? | {
"text": [
"more"
]
} |
1279546726 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Which of the two most likely has their blood and sweat vessels dilated? | {
"text": [
"Gretchen"
]
} |
3021625610 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Which of the two most likely does not have their blood and sweat vessels dilated? | {
"text": [
"Bob"
]
} |
3042860838 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Is Bob more or less likely to be having his body respond to his current temperature than Gretchen? | {
"text": [
"less"
]
} |
3422510876 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Is Gretchen more or less likely to be having her body respond to her current temperature than Bob? | {
"text": [
"more"
]
} |
3086178719 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Is Gretchen more or less likely to have her sweat and blood vessels dilate than Bob? | {
"text": [
"more"
]
} |
2727500196 | For example, your body has an internal thermostat. During a winter day, in your house a thermostat senses the temperature in a room and responds by turning on or off the heater. Your body acts in much the same way. When body temperature rises, receptors in the skin and the brain sense the temperature change. The temperature change triggers a command from the brain. This command can cause several responses. If you are too hot, the skin makes sweat and blood vessels near the skin surface dilate. This response helps decrease body temperature. | Recently, a man name Bob broke his leg, and has been commanded to stay inside and rest while it heals. His wife, Gretchen, has had to do most of the yard work, and it has been very hot outside. Bob has been watching his wife cut the grass and feels bad, noticing she looks tired, while he gets to sit inside in the air conditioning. | Is Bob more or less likely to have his sweat and blood vessels dilate than Gretchen? | {
"text": [
"less"
]
} |
3327345149 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Steve and Jon are getting ready for a big marathon that both have been training for. Steve gets ready for the race by stretching and doing some pre-race warm ups. Jon on the other had does no think warming up helps at all, and decides to just remain seated until it is time for the race to start. | Who is more likely to get an injury during the race? | {
"text": [
"Jon"
]
} |
3336913409 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Steve and Jon are getting ready for a big marathon that both have been training for. Steve gets ready for the race by stretching and doing some pre-race warm ups. Jon on the other had does no think warming up helps at all, and decides to just remain seated until it is time for the race to start. | Who is less likely to get an injury during the race? | {
"text": [
"Steve"
]
} |
4187900808 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Steve and Jon are getting ready for a big marathon that both have been training for. Steve gets ready for the race by stretching and doing some pre-race warm ups. Jon on the other had does no think warming up helps at all, and decides to just remain seated until it is time for the race to start. | Is Jon more or less likely to experience an injury than Steve during the race? | {
"text": [
"more"
]
} |
21580680 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Steve and Jon are getting ready for a big marathon that both have been training for. Steve gets ready for the race by stretching and doing some pre-race warm ups. Jon on the other had does no think warming up helps at all, and decides to just remain seated until it is time for the race to start. | Is Steve more or less likely to experience an injury than Jon during the race? | {
"text": [
"less"
]
} |
4035582237 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Who is more likely to get an injury during the race? | {
"text": [
"Greg"
]
} |
4045150497 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Who is less likely to get an injury during the race? | {
"text": [
"Carl"
]
} |
1897997209 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Does Carl's warm up cause an increase or decrease in the likely hood of an injury? | {
"text": [
"decrease"
]
} |
3420071629 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Does Greg's lack of a warm up cause an increase or decrease in the likely hood of an injury? | {
"text": [
"increase"
]
} |
3044940697 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Does Carl have a higher or lower chance of injury than Greg? | {
"text": [
"lower"
]
} |
3054771097 | Sometimes muscles and tendons get injured when a person starts doing an activity before they have warmed up properly. A warm up is a slow increase in the intensity of a physical activity that prepares muscles for an activity. Warming up increases the blood flow to the muscles and increases the heart rate. Warmed-up muscles and tendons are less likely to get injured. For example, before running or playing soccer, a person might jog slowly to warm muscles and increase their heart rate. Even elite athletes need to warm up ( Figure below ). | Greg and Carl and about to do a marathon. Greg sees Carl doing some warm ups and laughs to himself and thinks it is silly. They both want to get a good time, and are both avid runners. | Does Greg have a higher or lower chance of injury than Carl? | {
"text": [
"higher"
]
} |
3731180308 | One reason radiation is dangerous is that it can’t be detected with the senses. You normally can’t see it, smell it, hear it, or feel it. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one in Figure below , has a tube that contains atoms of a gas. If radiation enters the tube, it turns gas atoms to ions that carry electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | A scientist is doing a study in his lab about the radioactivity of some rocks that he found on an expedition. He colored the two different rocks to be able to tell them apart; one Red, and one Blue. He is using a Geiger counter to measure them, and finds that the Red rock causes the Geiger counter to click rapidly, and the Blue causes almost no clicks. | Which colored rock most likely has lower radioactivity? | {
"text": [
"Blue"
]
} |
673860450 | One reason radiation is dangerous is that it can’t be detected with the senses. You normally can’t see it, smell it, hear it, or feel it. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one in Figure below , has a tube that contains atoms of a gas. If radiation enters the tube, it turns gas atoms to ions that carry electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | A scientist is doing a study in his lab about the radioactivity of some rocks that he found on an expedition. He colored the two different rocks to be able to tell them apart; one Red, and one Blue. He is using a Geiger counter to measure them, and finds that the Red rock causes the Geiger counter to click rapidly, and the Blue causes almost no clicks. | Which colored rock most likely has higher radioactivity? | {
"text": [
"Red"
]
} |
2199343319 | One reason radiation is dangerous is that it can’t be detected with the senses. You normally can’t see it, smell it, hear it, or feel it. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one in Figure below , has a tube that contains atoms of a gas. If radiation enters the tube, it turns gas atoms to ions that carry electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | A scientist is doing a study in his lab about the radioactivity of some rocks that he found on an expedition. He colored the two different rocks to be able to tell them apart; one Red, and one Blue. He is using a Geiger counter to measure them, and finds that the Red rock causes the Geiger counter to click rapidly, and the Blue causes almost no clicks. | Does the Blue rock have a higher or lower radioactivity than the Red rock? | {
"text": [
"lower"
]
} |
2141475031 | One reason radiation is dangerous is that it can’t be detected with the senses. You normally can’t see it, smell it, hear it, or feel it. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one in Figure below , has a tube that contains atoms of a gas. If radiation enters the tube, it turns gas atoms to ions that carry electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | A scientist is doing a study in his lab about the radioactivity of some rocks that he found on an expedition. He colored the two different rocks to be able to tell them apart; one Red, and one Blue. He is using a Geiger counter to measure them, and finds that the Red rock causes the Geiger counter to click rapidly, and the Blue causes almost no clicks. | Does the Red rock have a higher or lower radioactivity than the Blue rock? | {
"text": [
"higher"
]
} |
1912355095 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Which sign in Bob's store uses Neon gas? | {
"text": [
"closed sign"
]
} |
580926078 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Which sign in Bob's store uses Krypton gas? | {
"text": [
"open sign"
]
} |
2893035919 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Which sign in Bob's store uses Xenon gas? | {
"text": [
"sale sign"
]
} |
4291314096 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Is the closed sign more or less likely to be Neon than Krypton? | {
"text": [
"more"
]
} |
57426352 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Is the closed sign more or less likely to be Krypton than Neon? | {
"text": [
"less"
]
} |
2100707560 | Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below . Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light. | Bob owns a store that sells signs. He has a large selection of different signs that are for sale, and they come in all sorts of different colors. His closed sign is a reddish-orange. His open sign is a violet color, and his sale sign is blue. | Is the open sign more or less likely to be Krypton than Neon? | {
"text": [
"more"
]
} |
3849808347 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Which city most likely has less pollution? | {
"text": [
"Seattle"
]
} |
3848104407 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Which city most likely has more pollution? | {
"text": [
"St. Louis"
]
} |
3338891505 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Does St. Louis likely have more or less pollution than Seattle? | {
"text": [
"more"
]
} |
3689640177 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Does Seattle likely have more or less pollution than St. Louis? | {
"text": [
"less"
]
} |
659124709 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Which city should Bob choose to move to in keeping with his goals? | {
"text": [
"Seattle"
]
} |
1748726791 | In the U.S., the majority of electricity is produced by burning coal or other fossil fuels. This causes air pollution that harms the health of living things. The air pollution also causes acid rain and contributes to global warming. In addition, fossil fuels are nonrenewable resources, so if we keep using them, they will eventually run out. The main advantage of nuclear energy is that it doesn’t release air pollution or cause the other environmental problems associated with the burning of fossil fuels. On the other other hand, radioactive elements are nonrenewable like fossil fuels and could eventually be used up. | Bob is trying to move to an area with low pollution. He has done his research and narrowed it down to two cities. Seattle, which has a nuclear power plant, and St. Louis which has a coal powered power plant. Both cities seem to have similar commercial and industrial areas, and only differ in the type of power they generate. | Which city should Bob avoid in keeping with his goals of low pollution? | {
"text": [
"St. Louis"
]
} |
2450934527 | You generally can’t see, smell, taste, hear, or feel radiation. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one pictured in the Figure below , contains atoms of a gas that is ionized if it encounters radiation. When this happens, the gas atoms change to ions that can carry an electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | Steve is a geologist and is doing a study on the radioactivity of different rocks. He has gathered two distinctly different rocks for examination. The first rock is red in color, and the second is purple in color. He has brought along a Geiger counter to help him with his study. The red rock ends up making the Geiger counter click very rapidly, while the purple rock barely registers any clicks. | Which color rock is most likely radioactive? | {
"text": [
"red"
]
} |
3695725397 | You generally can’t see, smell, taste, hear, or feel radiation. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one pictured in the Figure below , contains atoms of a gas that is ionized if it encounters radiation. When this happens, the gas atoms change to ions that can carry an electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | Steve is a geologist and is doing a study on the radioactivity of different rocks. He has gathered two distinctly different rocks for examination. The first rock is red in color, and the second is purple in color. He has brought along a Geiger counter to help him with his study. The red rock ends up making the Geiger counter click very rapidly, while the purple rock barely registers any clicks. | Which color rock is least likely radioactive? | {
"text": [
"purple"
]
} |
171069722 | You generally can’t see, smell, taste, hear, or feel radiation. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one pictured in the Figure below , contains atoms of a gas that is ionized if it encounters radiation. When this happens, the gas atoms change to ions that can carry an electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | Steve is a geologist and is doing a study on the radioactivity of different rocks. He has gathered two distinctly different rocks for examination. The first rock is red in color, and the second is purple in color. He has brought along a Geiger counter to help him with his study. The red rock ends up making the Geiger counter click very rapidly, while the purple rock barely registers any clicks. | Is the purple rock more or less radioactive than the red rock? | {
"text": [
"less"
]
} |
4270346522 | You generally can’t see, smell, taste, hear, or feel radiation. Fortunately, there are devices such as Geiger counters that can detect radiation. A Geiger counter, like the one pictured in the Figure below , contains atoms of a gas that is ionized if it encounters radiation. When this happens, the gas atoms change to ions that can carry an electric current. The current causes the Geiger counter to click. The faster the clicks occur, the higher the level of radiation. | Steve is a geologist and is doing a study on the radioactivity of different rocks. He has gathered two distinctly different rocks for examination. The first rock is red in color, and the second is purple in color. He has brought along a Geiger counter to help him with his study. The red rock ends up making the Geiger counter click very rapidly, while the purple rock barely registers any clicks. | Is the red rock more or less radioactive than the purple rock? | {
"text": [
"more"
]
} |
663885731 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | Which day will most likely have a lower humidity? | {
"text": [
"Thursday"
]
} |
1046484977 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | Which day will most likely have a higher humidity? | {
"text": [
"Friday"
]
} |
2408783037 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | What temperature will more than likely have a higher humidity? | {
"text": [
"75 degrees"
]
} |
1945705583 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | What temperature will more than likely have a lower humidity? | {
"text": [
"90 degrees"
]
} |
2836275114 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | What day would be the best day for Carly to run based on her preferences? | {
"text": [
"Thursday"
]
} |
3549634619 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | What day would be the worst day for Carly to run based on her preferences? | {
"text": [
"Friday"
]
} |
2961841368 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | Will the humidity be higher or lower on Friday than on Thursday? | {
"text": [
"higher"
]
} |
3025607896 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Carly is an avid jogger, but she has recently hated jogging in high humidity weather. She doesn't mind the temperature so much, and tries to schedule her running on days of lower humidity. The next couple of days she is thinking of scheduling a run. On Thursday the high temperature will be 90 degrees, and on Friday the high will be 75 degrees. | Will the humidity be higher or lower on Thursday than on Friday? | {
"text": [
"lower"
]
} |
3485991475 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Which day will Grace most likely encounter less humidity? | {
"text": [
"Wednesday"
]
} |
3484549679 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Which day will Grace most likely encounter more humidity? | {
"text": [
"Thursday"
]
} |
3924362512 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Will there be more or less humidity on Wednesday than on Thursday? | {
"text": [
"less"
]
} |
3939829008 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Will there be more or less humidity on Thursday than on Wednesday? | {
"text": [
"more"
]
} |
4281333982 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Which day should Grace do her run? | {
"text": [
"Wednesday"
]
} |
3553688655 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Grace is trying to set up a running schedule for herself. She prefers running on days when the humidity is at it's lowest so she doesn't feel so muggy. On Wednesday the high temperature is going to be 90 degrees, and on Thursday the high temperature is going to be 75 degrees. | Which day should Grace avoid doing her run? | {
"text": [
"Thursday"
]
} |
3198291757 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Greta loves to run. She has been trying to schedule which days of the week that would be best for her to go for her runs. She prefers days with low humidity, and isn't really concerned with the temperature. On Monday and Tuesday, the temperature will be a high of 90 degrees. On Thursday and Friday the temperature will be 75 degrees. | Which days will Greta prefer to run on? | {
"text": [
"Monday and Tuesday"
]
} |
3810201660 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Greta loves to run. She has been trying to schedule which days of the week that would be best for her to go for her runs. She prefers days with low humidity, and isn't really concerned with the temperature. On Monday and Tuesday, the temperature will be a high of 90 degrees. On Thursday and Friday the temperature will be 75 degrees. | Which days should Greta avoid running on? | {
"text": [
"Thursday and Friday"
]
} |
1385502488 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Greta loves to run. She has been trying to schedule which days of the week that would be best for her to go for her runs. She prefers days with low humidity, and isn't really concerned with the temperature. On Monday and Tuesday, the temperature will be a high of 90 degrees. On Thursday and Friday the temperature will be 75 degrees. | Will there be more or less humidity on Monday than Thursday? | {
"text": [
"less"
]
} |
601626147 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Greta loves to run. She has been trying to schedule which days of the week that would be best for her to go for her runs. She prefers days with low humidity, and isn't really concerned with the temperature. On Monday and Tuesday, the temperature will be a high of 90 degrees. On Thursday and Friday the temperature will be 75 degrees. | Will there be more or less humidity on Monday than Friday? | {
"text": [
"less"
]
} |
1010243226 | If all the other factors influencing humidity remain constant, at ground level the relative humidity rises as the temperature falls. This is because less vapor is needed to saturate the air, so vapor condenses as the temperature falls. In normal conditions, the dew point temperature will not be greater than the air temperature because relative humidity cannot exceed 100%.[4] | Greta loves to run. She has been trying to schedule which days of the week that would be best for her to go for her runs. She prefers days with low humidity, and isn't really concerned with the temperature. On Monday and Tuesday, the temperature will be a high of 90 degrees. On Thursday and Friday the temperature will be 75 degrees. | Will there be more or less humidity on Tuesday than Friday? | {
"text": [
"less"
]
} |