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As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminal is not connected to the battery terminal | partially_correct_incomplete |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminal is separated from the battery terminal | partially_correct_incomplete |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||you are moving from negative to positive | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||tell me the answer | non_domain |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||There was a positive battery terminal. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The bulb terminal and battery terminal are connected. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The bulb terminal and battery positive or negativeterminal are connected. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The bulb terminal is connected to a positive or negative battery terminal. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminals are connected to each other | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that bulb is damaged | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||It means that the terminal that you moved to is not connected to the terminal of the battery you are connected to | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||it means that the terminal is not connected to the battery terminal | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The terminals are not connected anymore | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The terminals are disconnected. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||there terminals are separated by a gap when the voltage jumps from 0 to 1.5. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The terminals are not connected to each other. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that you have found where the connection stops | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that you have found the bulb that is damaged | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||you have found the gap | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||gap in between | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||negative to positive terminals | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the bulb is connected from a negative terminal to a positive terminal | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the gap jumps from negative to positive | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the gap inbetween the terminals tells whether the bulb is connected to a positive or negative terminal | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that the bulb is damaged | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||That there is a closed circuit. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that they are no longer connected | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminals have gone from being connected to each other to not being connected to each other - there is a gap | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminals are no longer separated by a gap | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The bulbs were connected and now they are not. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||There"s a gap | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||You have reached a point where the terminals are not connected to each other. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that there is a gap and you found the nonfunctional light bulb | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The is a gap between those two terminals | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||I do not know. | non_domain |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||it is not the bulb that is damaged | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||There is a gap in between the terminals. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||they are connected | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The terminals are connected. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||an electrical surge | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||its connected to both the positive and negative terminals | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||current is present | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||You have crossed into opposing terminal territory. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||You found the broken bulb. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that is where the gap is in the circuit | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the terminals have gone from being connected to not being connected | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||there is a gap between them | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||there is a gap at that terminal, and the terminals are not connected at that point. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the latest bulb terminal is connected to the battery terminal, while the other is not | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||There is a difference in electrical states. | partially_correct_incomplete |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||You are closing the circuit. | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||that is where the gab is or the short circuit | contradictory |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||The terminals are connected to the opposite side of the battery | partially_correct_incomplete |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||i dont know | non_domain |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||That there is a gap in the terminals. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||That means they are now unconnected.There is a gap. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||That when the voltage reading is zero, the terminals are connected, when the voltage reading is 1.5, the terminals are not connected. It jumps from connected to not connected. | correct |
As you move the multimeter leads from one bulb terminal to the next, what does it mean when the voltage reading jumps from 0 to 1.5?||the bulb is damaged||the bulb is damaged | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the switch is contained in the path with the bulb, the switch affects the bulb. | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the switch must be contained in a path with the bulb | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if it is closed, the bulb will be on. If it is open the bulb will be off | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||If the switch is open, the path will be closed | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||idk | non_domain |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path must be closed for a bulb to be on. | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path must bring the voltage to the bulb. | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path must be closed. | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path must be closed with the battery and the bulb | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path must contain a battery | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||a bulb must be contained in a closed path with the battery | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the bulb has to be conatined in a closed path with the battery. | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||A switch affects a bulb only on the same path | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||where the switch is in path determines whether it affects the bulb | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||A bulb is contained in a path with the switch | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if it is a closed path. | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the switch is contained within the same path. | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the switch is contained in a closed path. | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||If it remains a closed path. | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||because the path has to be open | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the relationship between the path and the bulb has to be closed | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||a switch is contained in the path | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||A switch affects a bulb when it is in a closed path with a battery. | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||I don"t know what else to tell you. | non_domain |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||A switch contained in a closed bath with a bulb and a battery will affect the bulb. | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||A switch contained in a closed path with a bulb and a battery will affect the bulb. | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path opens the circuit | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||when the switches are closed the path flows | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the bulb is contained in an closed circuit | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if they are closed or open | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||l | non_domain |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||The path has to be closed in order for the bulb to be on. | irrelevant |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||The path may not connect a bulb to the switch. | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||The switch determines whether the path is open or closed. | irrelevant |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||If the path contains the switch, the bulb is affected. | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the path is open or closed | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the path passes the energy through the switch | irrelevant |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||the switch is contained in a path and then it is contained in a closed cercuit | contradictory |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||a bulb is contained in a closed path | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the switch it is in the closed path, then it affects the bulb | partially_correct_incomplete |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||if the switch is included in the bulb"s closed path, then the switch being open will affect the bulb | correct |
What role does the path play in determining whether or not a switch affects a bulb?||If a bulb and a switch are in the same path the switch affects the bulb||battery and bulb | partially_correct_incomplete |
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