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Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||connect to the terminal | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||The battery terminal is connected to terminal 6. | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 6 and the positive terminal.||Terminal 6 and the positive terminal are connected||The positive battery terminal is not seperated by a gap from terminal 6. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a was still in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was still contained in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because the path was closed | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because it was contained in same path as the battery | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a is contained within the same closed path as the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||switch Y does not affect bulb a | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||becuase bulb a is on a closed circuit with the battery | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a is on a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a is in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||The circuit is complete with the battery and bulb a | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||they are contained in the same path. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||switch x is contained in the same path as bulb a. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a is in the same path of switch x. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because it was not contained in the closed path. | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because it was contained in a closed bath with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because there was a gap in the terminals | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because the switch was connected to the closed circuit | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||the path was closed | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||the closed path is connected to the light bulb | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is contain in a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||there was closed paths between the battery | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||l | non_domain |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is conected to the battery. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||switch Y does not effect bulb A | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||i forgot | non_domain |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because switch x is in the same path as blub a | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||switch x is in the closed path with bulb a | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||yes | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was on | irrelevant |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was in a closed path with a battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a and switch x are in the same closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A has a closed pathway | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is on a closed circut path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a and the battery was on a closed path | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||dont know | non_domain |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||the bulb and the battery is contained on a closed path | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||no | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was is a closed circuit with the battery | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||tell answer | non_domain |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Switch Y is not in the path of Bulb A | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Switch Y was in a dfferent path | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is contained in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A is in a closed path with a battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a is contained in the closed path with switch x. switch y is not in the closed path with bulb a. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Yes. | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||yes bulb A was on | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because it was contained in a closed circuit | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because it was contained in the battery that has a closed path | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was on because it was contined in a closed path. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||i give up. | non_domain |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||There was a closed path with the battery and bulb a | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||beacuse it was in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A was still in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||had a closed path to the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a and the battery were in a closed path | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Yes it was on | irrelevant |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a is connected to switch x and the battery is in a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because bulb a was contained in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A and switch x are contained in the same path and the switch affects bulb A. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||It was still contained in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||It was closest to the battery | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was contained on a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A was still contained in a closed circuit. | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||It was contained in a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A was still on a closed path to the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because it is still in a closed circuit | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A was on because it was in a closed path that contained the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a was in a closed circuit with the battery | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was enclosed in a complete circuit | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was in a closed path with the battery | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was contained within a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because that created a closed circuit | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was still on a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it completes teh crciut | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||a is in a closed circuit when x is closed | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||It was in the same path as switch X. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bubl A was contained in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||switch Y does not affect the closed circuit of bulb A | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Bulb A was still in a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because there was no gap in the complete circuit | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||bulb a is contained in a complete circuit when switch x is closed. | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb a is in a closed circuit with the battery and switch x | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because switch Y didn"t interfere with the current. | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||it was a closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||It has its own closed path | partially_correct_incomplete |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||Because a closed circuit was formed. | contradictory |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb A was still in a closed path with the battery. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||There was a closed path between the battery and bulb a. | correct |
When switch X was closed and switch Y was open, why was bulb A on?||Bulb A was still contained in the same closed path with the battery.||because bulb A was still contained in a closed path | partially_correct_incomplete |
Explain why you got a voltage reading of 1.5 for terminal 3 and the positive terminal.||Terminal 3 and the positive terminal are separated by the gap||positive battery terminal is separated by a gap from terminal 3 | correct |
Explain why you got a voltage reading of 1.5 for terminal 3 and the positive terminal.||Terminal 3 and the positive terminal are separated by the gap||there is a gap between terminal 3 and the positive terminal | correct |
Explain why you got a voltage reading of 1.5 for terminal 3 and the positive terminal.||Terminal 3 and the positive terminal are separated by the gap||The positive battery terminal is seperated by a gap from terminal 3 | correct |
Explain why you got a voltage reading of 1.5 for terminal 3 and the positive terminal.||Terminal 3 and the positive terminal are separated by the gap||the positive battery terminal is seperated by a gap from terminal 3. | correct |
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