input
stringlengths 48
1.52k
| grade
stringclasses 5
values |
|---|---|
Explain your reasoning.||bulb B creates a gap||Because they are breaking the circuit. | contradictory |
Explain your reasoning.||bulb B creates a gap||There will not be a closed path. | correct |
Explain your reasoning.||bulb B creates a gap||The path between the bulbs and the battery is open | correct |
Explain your reasoning.||bulb B creates a gap||because there is no connection so the path is not closed | correct |
Explain your reasoning.||bulb B creates a gap||A damaged bulb does not create a gap in a closed path | contradictory |
Explain your reasoning.||bulb B creates a gap||If bulb B is damaged there is a gap in the circuit | correct |
Explain your reasoning.||bulb B creates a gap||If buld B is damaged that will create a gap. | correct |
Explain your reasoning.||bulb B creates a gap||Maybe because there is still one path that connects A and C through B | contradictory |
Explain your reasoning.||bulb B creates a gap||There will be a gap where the bulb holder is supposed to be | correct |
Explain your reasoning.||bulb B creates a gap||Burned out bulb B will cause a gap in the closed path. | correct |
Explain your reasoning.||bulb B creates a gap||Because there is a gap. | correct |
Explain your reasoning.||bulb B creates a gap||because there is a gap in the bulb | contradictory |
Explain your reasoning.||bulb B creates a gap||it will cut off the circuit | contradictory |
Explain your reasoning.||bulb B creates a gap||I"m not sure. | non_domain |
Explain your reasoning.||bulb B creates a gap||If bulb B is damaged, then the circut is no longer closed. | contradictory |
Explain your reasoning.||bulb B creates a gap||bulb B becomes a gap in the circuit | correct |
Explain your reasoning.||bulb B creates a gap||The bulbs aren"t codependent so they will still be on | contradictory |
Explain your reasoning.||bulb B creates a gap||there would be a gap in the circuit | correct |
Explain your reasoning.||bulb B creates a gap||the gap between the damaged wires of bulb b creates a gap in the path. | correct |
Explain your reasoning.||bulb B creates a gap||the current will flow to the other bulbs even though it is not able to execute light on B. Also, I"ve experienced that one light can be out without them all being affected. | contradictory |
Explain your reasoning.||bulb B creates a gap||Because their is a gap between A and C now. | correct |
Explain your reasoning.||bulb B creates a gap||When bulb B is damaged there is a disruption in the current. | contradictory |
Explain your reasoning.||bulb B creates a gap||if it is not connected the electrical current can"t pass through to connect the other bulbs. | partially_correct_incomplete |
Explain your reasoning.||bulb B creates a gap||There are two pathways | contradictory |
Explain your reasoning.||bulb B creates a gap||The circuit will become incomplete. | correct |
Explain your reasoning.||bulb B creates a gap||If bulb B is damaged, there will be a gap. | correct |
Explain your reasoning.||bulb B creates a gap||There would be a gap. | correct |
Explain your reasoning.||bulb B creates a gap||it would create a gap | correct |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because there is a difference in electrial states between the two terminals | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||there is a difference between the electrical states of the two battery terminals because they are not connected to each other | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the cheminal reaction of the volatge is there wther or not there is an incomplete circuit | correct |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the battery will always have a voltage. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the battery is a chemical reaction that does not rely on the circuit being complete or not. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the terminals in the battery will have an electrical state and chemical reaction that will continuously flow. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because a battery is in a constant state of electrical charge | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||a battery is in a constant state of electricity | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because a battery always has a charge in its positive terminal | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the terminals are not connected | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the positive terminal and negative terminal are not connected | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the positive battery terminal is not connected to the negative battery terminal. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The chemical reation still exists | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery uses the chemical reation to create voltage | correct |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||there is no short circuit to the battery. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the battery still holds the electrical charge if there is an incomplete circuit. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the gap will not effect the voltage. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||Because the chemical reaction is not effected by a gap. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the terminals must have a difference in electrical states to have voltage | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the difference in the electrical states between two terminals causes a chemical reaction | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||There is always a difference in voltage between two battery terminals. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The gap causes a difference in electrical states. | irrelevant |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery terminals have different electrical states. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the voltage doesnt change in the battery | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because of the chemical in the battery | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because of the chemical reaction in the battery | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because they are in the same electrical state | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||and they are in the same state | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||l | non_domain |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||There is a difference in electrical states between two terminals. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||It is different from the battery. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||difference in electrical state | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||gap in terminal | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the voltage is the difference in electrical states between two terminals | irrelevant |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the terminal has an electrical state between terminals | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||a chemical reaction between terminals | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because the battery has electricity and the gap does not | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the battery always has voltage | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the terminals are not connected | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||there is a gap between terminals | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||a battery uses voltage | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||dont know | non_domain |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because there is no gap between the positive and negative terminal | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the terminals used by the battery have no gap. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||Because it is the difference of the electrical state between the two battery terminals | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||It is the difference of the electrical states caused by a chemical reaction between the two terminals of the battery. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the electrical state difference between the battery"s two terminals | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||i dont know | non_domain |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because it has a positive terminal | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||tell answer | non_domain |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery will have a different electrical state than the circuit | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The difference in electrical state | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery has a different electrical state than the incomplete circuit | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery uses the electrical state | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||Battery will always have voltage. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery keeps a chemical reaction reaction. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||The battery uses a chemical reaction to maintain the voltage, | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||there is always voltage even if there is a gap | irrelevant |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||there is a chemical reaction between two terminals | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||a terminal has an electrical state where theres a chemical reaction | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because a battery always has voltage | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||because a battery has a chemical reaction that causes a voltage | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||a batter uses a chemical reaction to create voltage | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the voltage of the battery depends on the chemical interaction inside the battery. It does not depend on components in a curcuit. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the voltage of a battery does not depend on the components in a curcuit. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||the voltage of the battery does not depend on the components in a curcuit. It depends on a chemical reaction. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||becasuse it is electrically charged | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||yes, because there is a chemical reaction | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||There is a chemical reaction. | partially_correct_incomplete |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||circuit do not effect electrical state between terminals | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||circuits do not effect the electrical state between two terminals. | contradictory |
Why?||A battery uses a chemical reaction to maintain different electrical states at the terminals||an incomplete circuit would not effect the the electrical state between the terminals. | contradictory |