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Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||The battery is contained by an open pathway | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because the path was not closed | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||tell answer | non_domain |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Switch Z is in the same path as Bulb C | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Switch Z opens the path for bulb C | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was in an open path, | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was in an incomplete path | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||The open switch was in the path. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Because switch Y was open and bulb C is not ina closed path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb C is not contained in a close path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb c was separated from the battery. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb c was not connected to the battery. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb c in not contained in a closed path. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||There is not a closed path with the battery and bulb C | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||it was not contained in a closed path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because bulb C was not still contained in a closed path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||gap in the path | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||gap in the path to the battery | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because bulb C is not connected to switch z | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because bulb C was separated by a gap from the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Because Bulb C and switch Z are in the same path, so with switch Z open, a gap was created. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C could not turn on because there was a gap in it"s path | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb C is on the same path as switch Z | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||There was a gap. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||there was a gap in the circuit that C was on | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb c was not contained in a closed path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Because it broke the circuit | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Not contained in a closed path | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was no longer contained in a closed path with the battery. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because there is not a closed circuit anymore for bulb c | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was off when switch Z was oped because switch Z created a break in the path. The path was no longer closed. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C had a gap in the path with the battery | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||It is no longer contained within a closed path | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C is not contained in a closed path with the battery. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb c had a gap in the path. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||dont know | non_domain |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Switch Z made a gap in teh circuit | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||it was in an open circuit | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||It was not in the same circuit. | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Z being open created a gap in the circut. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||switch Z created a gap in the closed circuit required for bulb C | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C wasn"t in a closed path | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because Y created gap to the positive battery | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||there is a gap in the closed circuit seperating bulb c from the negative terminal when switch z was open. | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because for the currents from both terminals of the battery to reach bulb c switch z and y must be closed. | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Because it didn"t get he negative current. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was no longer connected to the negative battery terminal. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||becuase bulb C will be taken off the closed path when switch opens | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||it was not a closed path | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||The path it was on | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Because switch Z puts a gap in the circuit. | contradictory |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||because there was a gap in the pathway. | partially_correct_incomplete |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C did not have a closed path. there was a gap | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||Bulb C was off when switch Z was open because bulb C was directly in an open path. | correct |
Why was bulb C off when switch Z was open?||Bulb C was no longer in a closed path with the battery||bulb C was not contained in a closed path because of the gap created by switch Z. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is no difference in electrical states | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the terminals are the same | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||i do not know | non_domain |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the terminal are seperated by a gap when the bulb goes out | irrelevant |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||There is no difference between the two terminals. | partially_correct_incomplete |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The bulb is off. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||they are connnected to the negative terminal of the battery | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the bulb terminal and the battery terminal have the same electrical state. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the bulb terminal is connected to the battery terminal. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||There is no gap so there is no difference in voltage | partially_correct_incomplete |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The positive battery terminal is seperated from the negative battery terminal | partially_correct_incomplete |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a gap. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a gap between the positive battery connection and the bulb terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a gap between the battery terminal and the bulb terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a gap between the positive battery terminal and the bulb terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a gap between the bul and battery terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||There is a gap between the bulb and the battery terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is not a gap in the connection | partially_correct_incomplete |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the terminal is connected to the difference of the battery terminal | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The electrical states of the bulb terminal and the battery terminal are the same. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||its not working | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the terminal it is connected to is not working | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the two terminals will both be 0 | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||a terminal is connected to differenet states | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||There is no difference in electrical states. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||A terminal is connected to the battery. | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the bulb will not light | irrelevant |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the terminal is connected to postive end of battery | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||that there is no electrical connection | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||no electricity | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||to a battery | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is none | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is a separation | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the bulb is connected to the battery terminal | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||the bulb terminals are connected to the battery terminal | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||It tells you that it is connected to a positive battery terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||that buld and the battery terminals are connected | correct |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||bulb | partially_correct_incomplete |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||it is negative | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The connection is closed | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||it is closed | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The terminal is connected to the bulb | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||That it is a negative terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||The terminal is connected to a negative terminal. | contradictory |
What does a voltage reading of 0 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are connected||there is no connectivity | contradictory |
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