input
stringlengths 48
1.52k
| grade
stringclasses 5
values |
|---|---|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal 4 is connected to the positive terminal of the battery
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the negative battery terminal is seperated by a gap from terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||tell me the answer
|
non_domain
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||There is no gap between the positive terminal and terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||There was no gap between terminal 4 and the positive terminal.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive battery terminal s separated by a gap from terminal 4
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal 4 is connected to the positive batterty terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive terminal is connected to terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the negative battery terminal is separated by a gap from terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive battery terminak is separated ba a gap from terminal 4
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||?
|
non_domain
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal 4 and the negative ternimal are not connected.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive battery terminal and terminal 4 are on the same side of the damaged bulb
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive battery terminal and terminal 4 do not have a gap between them
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||the positive battery terminal and terminal 4 are connected
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||after gap
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||positive after gap
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal positive after gap
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal 4 is connected to the positive terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||because terminal 4 is connected to the positive terminal but not the negative terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||terminal 4 is separated by a gap from the negative terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||because the negative terminal is separated by a gap from terminal 4.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||There was a gap.
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||there was a negavtive gap
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||I don"t know.
|
non_domain
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||There is no gap, same electrical state.
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||becuase the negative end of the votlage meter was connected to a positive circuit
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||There was no gap between the positive battery and terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||I do not know.
|
non_domain
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||no gap between 4 and positive battery
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||bulb b created a gap
|
irrelevant
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positive battery terminal is separated by a gap from terminal 4.
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Terminal 4 has a gap.
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||there is a gap between teh negative battery terminal and terminal 4
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||no clue
|
non_domain
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positive terminal is connected to terminal 4.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Because there is no gap between terminal 4 and the positive terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positive battery terminal is a closed path from terminal 4.
|
contradictory
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Terminal 4 and the positive battery terminal are in the same state.
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Because there is a gap in the system where componenet B is shorted out.
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positive terminal is not seperated from the gap
|
partially_correct_incomplete
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Terminal 4 was only connected to the positive terminal
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positve battery terminal is connected to 4.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||The positive battery terminal was not seperated by a gap from terminal 4.
|
correct
|
Explain why you got a voltage reading of 0 for terminal 4 and the positive terminal.||Terminal 4 and the positive terminal are connected||Terminal 4 is connected to the positive battery terminal.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||because bulb a and b are still contained within a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||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 b, and bulb a
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||because they are both still contained in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs a and b are still contained in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||because bulbs a and b are in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||If bulb C is damaged, then bulb B and bulb A are still contained in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||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 bulb a and b.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||i dont know.
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||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 the battery.
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||i don"t know.
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb B and bulb A stay on a closed path.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||Bulb B and Bulb A are on closed paths.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||the bulb in burned out
|
irrelevant
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||becaudse the terminica;l circuit bulb sidshfklopc
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs a and b are still in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||if C is damaged, the bulb A and B ae contained in a closed path
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||battter is contained in a closed path
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||the battery is contained in a closed path
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||l
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||Bulb A and Bulb C are contained in a closed path with the battery.
|
contradictory
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||Bulb A and Bulb B are contained in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c is in an independent path
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||how so?
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||no i do not want to
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||no
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c is contained in a closed path
|
contradictory
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||because bulb c is not included in the closed path
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c is contained in it"s own closed path
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||closed path
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs a and b are contained ina closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||A and B are on a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||If bulb C is damaged, then bulb A and bulb B are still contained in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb C is not in the same closed path as the battery
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||tell answer
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||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 a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c does not create a gap in the path for bulb b and a
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c does not create a gap
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||If bulb c is damaged, bulb a and bulb b are still contained in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||if bulb c is damaged, then bulb a and b are contained in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||if bulb C is damaged, bulb A and bulb B are still in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||Bulbs A and B are contained in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb c does not affect the path of a and b.
|
partially_correct_incomplete
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||i give up.
|
non_domain
|
Why do both bulbs A and B stay on when bulb C is burned out?||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
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||there is still a complete path for bulb a and b
|
contradictory
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulb a and c are still contained in closed paths with the battery
|
contradictory
|
Why do both bulbs A and B stay on when bulb C is burned out?||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 a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||they are still in a closed path with the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||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
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs A and B are still connected to the closed circuit containing the battery
|
contradictory
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs A and B are still connected to the closed path containing the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||bulbs A and B are still connected to the battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||because bulbs a and b are still contained in a closed path with the battery.
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||they are still on a close path as teh battery
|
correct
|
Why do both bulbs A and B stay on when bulb C is burned out?||If C burns out then A and B are still in a closed path with the battery||they are on their own closed path with the battery
|
contradictory
|
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