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Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||They are different electrical states | partially_correct_incomplete |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||The electrical state at the terminal matches the battery"s electrical state | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||because the voltage meter was connected to a positive and negative side | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because it was not connect to the negative end of the terminal | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||because voltage measures the difference between two points | irrelevant |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||I do not know. | non_domain |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||not sure | non_domain |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||it was connected to the positive terminal | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||The difference between the electrical states is 1.5 volts | irrelevant |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||because there was a closed circuit | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because the positive terminal is in a closed path. | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||it is connected to the positive terminal | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||terminal one is connected to a positive battery terminal | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because it was attached to the postive terminal! | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||terminal 1 is connected to the negative battery terminal | correct |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Different states | partially_correct_incomplete |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||there is a difference of 1.5 volts between terminal 1 and the positive terminal | partially_correct_incomplete |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||terminal 1 and the positive terminal are connected. | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||because terminal 1 is connected to the negative terminal which has a 1.5 volt difference with the positive terminal | correct |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because the meter was hooked up to two sides of the battery. | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Terminal 1 is connected to the negative battery terminal and is in a different state than the positive battery terminal. | correct |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||because terminal 1 had both a positive and negative charge. | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||I"m not sure | non_domain |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because the positive circuit has a voltage of 1.5 volts. | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Postive terminal is not connected to 1. | correct |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||Because terminal 1 was hooked u to the positive terminal which is automatically 1.5 V | contradictory |
Explain why you got a voltage reading of 1.5 for terminal 1 and the positive terminal.||Terminal 1 and the positive terminal are separated by the gap||terminal 1 is not connected to the positive battery terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 is connected to the positive battery terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to a positive battery terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||the positive battery terminal is connected to terminal 6. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to the positive battery terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||The positive battery terminal is connected to terminal 6 | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 is only connected to the positive battery terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||a terminal is connected to the positive terminal of the battery | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||The positive batery terminal is connected to terminal 6. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||you guys would get more honest feedback and answers if you didnt make this so boring and repeatdly ask the same questions. its not like your testing elementary school kids | non_domain |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||I get a voltage reading of 0 for terminal 6 and the postive terminal because their is not current flowing, no electricity, the path is open. the negative terminal of batter is not connected meaning the bulb will not light because there is 0 voltage | contradictory |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||the terminal is not connected to negative end of battery | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to postive end of battery and the voltage meter | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||thats what i said, for a computer your a dumb*** | non_domain |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||the positive terminal is not seperated by a gap from terminal 6 | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to the positive terminal of the battery | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||There was no gap between terminal 6 and the positive terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||the positive terminal is connected to terminal 6 | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 and the positive terminal are connected. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||the positive battery terminal and terminal 6 are connected | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to positive battery terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 is connected to the positive terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 is connected to the posititve battery terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 is connected to the positve battery terminal | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||for the same reason as 3 | contradictory |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||no gap; connected | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||i dont know | non_domain |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||gap in 6 | contradictory |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||no clue | non_domain |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||It was on the wrong side. | contradictory |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||terminal 6 and the positive terminal are connected | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 is connected to the positive terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||Terminal 6 was only connected to the positive terminal. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||because they will still be contained within a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||there is a closed path that contains the battery, bulb a, and bulb b | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||A is in the same path as C | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a will burn out with bulb C | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulbs a and b will still be contained in closed paths with the battery. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulbs a and b are on a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb c creates a gap in the closed path. | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a and b will be on. | irrelevant |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||they are still on closed paths with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb c is not in the same path of bulbs a and b | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Because Bulb C is not on a closed path. | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||because they will still work | partially_correct_incomplete |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulbs a and b will still be in a closed path with the battery. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||they are in different paths | partially_correct_incomplete |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb b and bulb c are in a closed path and bulb a is in a separate closed path | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a is in a closed path | partially_correct_incomplete |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulb A, Bulb C, and the battery are in a closed path. | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulb A and Bulb B and the battery are in a closed path. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||they are in independent paths | partially_correct_incomplete |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||i dont know | non_domain |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||i like you? | non_domain |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||i love you? | non_domain |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulbs a and b are contained in their own closed path | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb c creates a gap | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulbs a and b are not in a closed path with bublb c | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||A and B are on closed paths containing the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a and b are on a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb C is not contained in the same closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulb A and B will still be contained in a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a and b are still contained in closed paths with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||there is a closed path | partially_correct_incomplete |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a will still be in a closed path with the battery. bulb b will still be in a closed path with the battery. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulbs A and C are still contained in closed paths with the battery | contradictory |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulbs A and B are contained in closed paths with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||a and b are still contained in a closed path with the battery. | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||there is a closed path that contains the battery and bulb a and bulb b | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb a and bulb b are still contained in a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||bulb A and B will stil be in a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulb A and bulb b are still contained in closed paths with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||Bulbs a and b will still be contained in a closed path with the battery | correct |
Explain your reasoning.||If C burns out, then A and B are still in a closed path with the battery.||It is on a separate path. | correct |
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