johnpaulbin/autonlp-data-asag-v2 · Datasets at Hugging Face

input stringlengths 48 1.52k	grade stringclasses 5 values
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch z is contained on a closed path	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|tell answer	non_domain
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Switch Z can be closed instead	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|There is another path through Switch Z	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Bulb A and C are contained in a closed path with the battery	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because it is not in the same path	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|it is not in the same path as the bulb and battery	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|it is not in the same path with the bulb and battery	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch z could be closed	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch z is contained in a closed path to the battery	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because bulb a can still be in a closed path with the battery if switch z is closed and switch x is closed	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|if switch z is closed it can make a closed path that contains bulb a and the battery.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|They are on different series	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Bulb A is on a different path than switch Y	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb a is in a closed path with the battery without passing through switch y.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb a is in a closed circuit with the battery without the y switch.	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|i give up	non_domain
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|There is still a closed path	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Y is not needed for bulb a to light	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|there is a closed path with the battery and bulb a	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|beacuse there is a complete path without switch y	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|beacuse there is a complete circut without y being involved	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|there is a complete path to the battery without y	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch z is closed so it still creates a complete path to the battery	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because bulb A has two different paths that can keep it in a closed path with the battery	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb A will be on a closed path with the battery	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|they are not on the same path	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because it is not in the path to the battery	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch y is not in the path to the battery	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch y is not on the same path to the battery as bulb a	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch y is not on the same path to battery	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because switch x can be closed and y can be open and A will light	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb a is connected to 2 different paths and either one would light up a if they were closed	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Bulb A is in two different paths with the battery	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|The bulb and the switch are not on the same closed path.	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because it is still in line with the battery	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|its not effecting the current to switch A	irrelevant
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb A is on a closed path with switches X and Z, so as long as those are closed the bulb can light up	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|true. bulb a will light if switches X and Z are closed.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|As long as X and Z are closed A will light	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because it can go through switch Z	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because bulb A will still be contained on a closed path to the battery.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because bulb a can go through the other path	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Switch Z will still create a closed path from the bulb and the battery	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb a can have a closed path with the battery through switch z	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because it can still make a closed path with switch X and Z.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|x has to be closed. Y is not in the same path	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|you can close switch Z and it will have light	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|It is still contained in a closed path	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|becasue it can be in another closed pathway	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because switch z can be closed	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Bulb A is in the path with switch X.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|it is on its own closed path with the battery	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|switch Z can be closed	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|can complete the path by having z be closed	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|It is not in the same path as bulb A.	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|If Z is closed, A is still part of a complete circut.	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|if switches X and Z are closed it will complete the closed circuit for bulb A	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Switch X can still form a closed path	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because it can have complete circuit if Zis closed and Y is open	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|bulb a is in a complete circuit with the battery.	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because the negative current can transfer through switch z	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|It receives current from switche Z.	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because bulb A is connected to another path.	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|becuase it can follow that path that switch Z is on	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|if x and z are closed then it will create a closed path	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|i don"t know	non_domain
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because bulb A can still be in a closed pathway through bulb C and switch Z	correct
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|because it can travel by bulb c	partially_correct_incomplete
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|Because switch Y and Z are also connected to bulb A.	contradictory
Why not?\|\|there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery\|\|the bulb could be lit by having switch X and switch Z closed.	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|is the difference between two terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|is the difference between terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the is a difference in the terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|is the difference in electrial stat between terminals	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in electrical states between two terminals	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in the electrical states of the positive and negative terminals of a battery	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the measurement between the electrical states of the positive and negative terminals of a battery	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|electricity difference between the battey"s positive and negative terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|a measurement of current and flowing the a source.	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|a measurement of current flowing through a source.	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|a difference between the electrical states.	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference between the positive and negative terminals of a battery	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference of electrical states in a battery	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in electricity between terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|teh difference of electrical states between two terminals	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|The difference between two terminals	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|Two terminals that have different electrical states	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|a measurement of electricity	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the different in the positive terminal and negative terminal.	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference between the electrical state of the positive terminal and the negative terminal.	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|voltage is the measure of electrical charges in a component.	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|voltage is the amount of electrical charge within a component.	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|voltage is the difference between tow terminals.	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the measurement of power of electricity	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in connections between terminals	contradictory
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in electrical state between two terminals	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|The difference in electrical states between two terminals.	correct
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|the difference in batteries	partially_correct_incomplete
What is voltage?\|\|Voltage is the difference in electrical states between two terminals\|\|difference between the baterry and termnial	partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch z is contained on a closed path

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||tell answer

non_domain

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Switch Z can be closed instead

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||There is another path through Switch Z

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Bulb A and C are contained in a closed path with the battery

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because it is not in the same path

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||it is not in the same path as the bulb and battery

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||it is not in the same path with the bulb and battery

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch z could be closed

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch z is contained in a closed path to the battery

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because bulb a can still be in a closed path with the battery if switch z is closed and switch x is closed

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||if switch z is closed it can make a closed path that contains bulb a and the battery.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||They are on different series

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Bulb A is on a different path than switch Y

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb a is in a closed path with the battery without passing through switch y.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb a is in a closed circuit with the battery without the y switch.

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||i give up

non_domain

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||There is still a closed path

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Y is not needed for bulb a to light

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||there is a closed path with the battery and bulb a

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||beacuse there is a complete path without switch y

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||beacuse there is a complete circut without y being involved

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||there is a complete path to the battery without y

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch z is closed so it still creates a complete path to the battery

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because bulb A has two different paths that can keep it in a closed path with the battery

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb A will be on a closed path with the battery

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||they are not on the same path

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because it is not in the path to the battery

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch y is not in the path to the battery

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch y is not on the same path to the battery as bulb a

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch y is not on the same path to battery

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because switch x can be closed and y can be open and A will light

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb a is connected to 2 different paths and either one would light up a if they were closed

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Bulb A is in two different paths with the battery

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||The bulb and the switch are not on the same closed path.

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because it is still in line with the battery

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||its not effecting the current to switch A

irrelevant

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb A is on a closed path with switches X and Z, so as long as those are closed the bulb can light up

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||true. bulb a will light if switches X and Z are closed.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||As long as X and Z are closed A will light

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because it can go through switch Z

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because bulb A will still be contained on a closed path to the battery.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because bulb a can go through the other path

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Switch Z will still create a closed path from the bulb and the battery

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb a can have a closed path with the battery through switch z

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because it can still make a closed path with switch X and Z.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||x has to be closed. Y is not in the same path

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||you can close switch Z and it will have light

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||It is still contained in a closed path

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||becasue it can be in another closed pathway

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because switch z can be closed

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Bulb A is in the path with switch X.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||it is on its own closed path with the battery

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||switch Z can be closed

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||can complete the path by having z be closed

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||It is not in the same path as bulb A.

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||If Z is closed, A is still part of a complete circut.

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||if switches X and Z are closed it will complete the closed circuit for bulb A

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Switch X can still form a closed path

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because it can have complete circuit if Zis closed and Y is open

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||bulb a is in a complete circuit with the battery.

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because the negative current can transfer through switch z

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||It receives current from switche Z.

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because bulb A is connected to another path.

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||becuase it can follow that path that switch Z is on

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||if x and z are closed then it will create a closed path

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||i don"t know

non_domain

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because bulb A can still be in a closed pathway through bulb C and switch Z

correct

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||because it can travel by bulb c

partially_correct_incomplete

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||Because switch Y and Z are also connected to bulb A.

contradictory

Why not?||there is still a closed path containing Switch Z, Switch X, Bulbs A and C and the battery||the bulb could be lit by having switch X and switch Z closed.

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||is the difference between two terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||is the difference between terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the is a difference in the terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||is the difference in electrial stat between terminals

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in electrical states between two terminals

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in the electrical states of the positive and negative terminals of a battery

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||the measurement between the electrical states of the positive and negative terminals of a battery

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||electricity difference between the battey"s positive and negative terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||a measurement of current and flowing the a source.

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||a measurement of current flowing through a source.

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||a difference between the electrical states.

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference between the positive and negative terminals of a battery

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference of electrical states in a battery

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in electricity between terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||teh difference of electrical states between two terminals

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||The difference between two terminals

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||Two terminals that have different electrical states

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||a measurement of electricity

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the different in the positive terminal and negative terminal.

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference between the electrical state of the positive terminal and the negative terminal.

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||voltage is the measure of electrical charges in a component.

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||voltage is the amount of electrical charge within a component.

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||voltage is the difference between tow terminals.

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||the measurement of power of electricity

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in connections between terminals

contradictory

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in electrical state between two terminals

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||The difference in electrical states between two terminals.

correct

What is voltage?||Voltage is the difference in electrical states between two terminals||the difference in batteries

partially_correct_incomplete

What is voltage?||Voltage is the difference in electrical states between two terminals||difference between the baterry and termnial

partially_correct_incomplete