input
stringlengths 48
1.52k
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stringclasses 5
values |
|---|---|
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 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||Because they remain in a closed circuit
|
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||They have a seperate 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 stay on because they are still contained within a closed path with a 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, there is still 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 A and B still connected to 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||there is still a closed path for 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||A and B are still in a closed pathway 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 bulb c is not in the same ppath
|
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 C are still in a contained 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||they are on seperate closed circuits 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||not contained insa me 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||SEPARATE PATHS
|
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||They are in separate paths.
|
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||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 contained in a closed circuit 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||Bulbs A and B are on a different 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||because they are on a closed path that is not interrupted by C
|
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 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||because bulb a and b are not contained in a closed path with bulb c
|
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 were on a closed pat
|
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 were 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 bulb C is on it"s own pathway seperate from A and B 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 bulb c doesnt effect the other closed paths
|
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||They are contained in a close pathway
|
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 C is not contained on the path of the other bulbs
|
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 still 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||Through bulb A, bulb B is still contained in a closed path 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||Bulbs B and A are still contained on a closed path with the battery
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||because the two ends of the battery do not connect to one another
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery terminals don"t connect without any devices
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there isn"t a closed path of the battery
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||only one terminal of the battery is contained within the path and there is a bulb in the closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there are two components in the path
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because the battery is out of the closed path completely.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not contained in the closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not in a closed path.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||circuit 2 has a bulb on a closed path
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||circuit 2 is connected to a terminal on the battery
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||circuit 2 is connected to the battery
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not contained in a closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the only component in the closed path is the battery.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||only one side of the battery is in the closed path
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not in the closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||A bulb is within the closed path, the battery is not in a closed bath so it can not be damaged
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not in a closed path so it can not be damaged
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||it only has 1 connection.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the bulb is only connected at the negative connection.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the bulb is not connected to both positive and negative connections.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because there is a bulb connected.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because there is a bulb in one of the paths.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Bcause the battery is not in a closed path.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||because the bulb is not in the batterys path
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the bulb is in a closed circuit
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the path is closed
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||There is a bulb connected to the battery terminal.
|
irrelevant
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||There is a bulb in the circuit.
|
irrelevant
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is in a circuit with a bulb.
|
irrelevant
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||it has a battery
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||because the bulb is in a closed path
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not connected in the closesd path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Both terminals of the battery is not connected.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||A light bulb is attached to the battery.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||open path
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||postive terminal of battery is not connected
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there is a path way connecting to a bulb and battery
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there is a battery and bulb with a connection
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||battery and bulb
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because there is a light bulb
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not contained in the circuit.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||it is not in a closed path
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Circuit 2 is not in a closed path
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not in a closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||circuit 2 is a short circuit
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the attery is not in a closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not on a closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not in a clossed path.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery connects to the bulb
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not connected to itself
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the path of battery 2 is not to itself
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is connected to only one side of the bulb and is only running electricity back to the battery.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The bulb is in a closed path but the battery is not.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The bulb is in a closed path and the battery is not in the closed path with the bulb.
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Circuit 2 is not a closed circuit because the battery and the bulb are connected.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||?
|
non_domain
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there is not a full circut with both battery terminals
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery terminals are not connected to one another
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||there is not a complete path involving both battery terminals
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not contained in a circut
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The bulb is in a closed circuit and the battery exists in that circuit
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not in a closed bath alone
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||not a closed path
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because the battery is connected to the path of the bulb
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||Because the battery is connected to the bulb
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||The battery is not alone in the path
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||because the battery is not connected to itself
|
correct
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||It is a closed path.
|
contradictory
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||There is a component.
|
partially_correct_incomplete
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||it does not damage the battery
|
irrelevant
|
Explain why circuit 2 is not a short circuit.||The battery in 2 is not in a closed path||the battery is not connected to only itself in a closed path
|
correct
|
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