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Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulb b and bulb c are in a closed path with the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulb b is in a closed path with the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulb B and C will no be in a closed path with the battery | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A is contained in closed paths with the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulbs b and c are still contained in closed paths with the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulbs b and c have separate paths within the closed circuit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||both bulbs B and C each have their own separate path to the battery within the closed circuit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||damaged bulb a creates a gap in the path | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||They are in separate paths. | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||There is a gap in the path | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||they are conected to each other | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||neither bulb b or bulb c will be contained on a closed path | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||They are no longer on a closed cirucit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Without A, there"s no closed path | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||B and C will no longer be contained in a closed path to the battery. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||because they are in series with a | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A creates a gap in the path. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||there would be a gap in the closed circuit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Damaged bulb A will create a gap. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||still connected to the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||they are in the same path | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Damaged bulb A creates a gap in the circuit | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||there will be a gap | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||because the damaged bulb a creates a gap in the path | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb B, and C are still ina contained path. | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||seperate circuits | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||contained in closed path | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||A GAP WIL BE CREATED | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A is not in the same path as bulbs B and C. | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A will no longer be completing the circuts. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||bulb A creates a gap in the closed circuit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||there is a gap caused by bulb A | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||because it would cause a gap | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||the damaged bulb a creates a gap in the path. | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||because it damages the complete circuit | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||it is on a closed path | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||There is a gap in the closed path. | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||it creats a gap so there are no closed paths | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Seperate paths connected to the battery | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Damaging Bulb A would disrupt the closed path with the battery. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||if bulb A burns out then bulbs B and C will no longer be in a closed path. | correct |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||B nor C will have a contained closed paths to the battery | partially_correct_incomplete |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulbs B and C are still contained in a closed path to the battery. | contradictory |
Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||that creates a gap | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 is connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||they are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||they are connected to each other | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 is connected to terminal 4. | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal one is connected to terminal four | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||The terminal 1 is connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||there was no gap between the positive battery terminal and terminal 1 and terminal 4. | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Because they were both seperated. | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||because terminal 1 is directly connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 is connetced to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||tereminal 1 is connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||there is a difference in electrical states | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 and terminal 4 are the same | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||the terminal is connected | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||i"m not sure | non_domain |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||there is a gap in the path | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||there is a gap between terminal 1 and terminal 4 | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||there is a gap in the circuit | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||the terminals are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminals are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal 1 was connected to a negative terminal 4. | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminals 1 and 4 are not seperated by a gap | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal 1 is connected to terminal 2 | irrelevant |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 i connected to terminal 6 | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||A terminal is not connected to the positive battery terminal. | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 and terminal 4 are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||because they are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 is seperate from terminal 4 | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||because they are both connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||1 is connected to terminal 2. | irrelevant |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal one is connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||same reason as 2 | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Because the two terminals are connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1 and 4 connected | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||They are both connected to the negative battery terminal | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||The positive battery terminal is separated by a gap from terminal 4. | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal 1 is connected to terminl 4. | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||no charge | contradictory |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||same as above | partially_correct_incomplete |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Because they were connected within the same terminal. | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||terminal 1is connected to terminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Because terminal 1 is connected to terminal 4. | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal 1 is connected toterminal 4 | correct |
Explain why you got a voltage reading of 0 for terminal 1 and terminal 4.||Terminals 1 and 4 are connected||Terminal 1 is not connected to terminal 4. | contradictory |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the battery is not contained in a closed path | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the battery is not contained in a closed path | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||Because it is in an incomplete path | contradictory |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||The path does not close | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||The battery is not in a closed path. | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||circuit 4 is contained in an open path | partially_correct_incomplete |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the batteries terminals are not connected | irrelevant |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the bulb is in the closed path | contradictory |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||The battery is not in a closed path so it can not be damaged | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||it is not contained in a closed path. | correct |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the bulb is not connected to the positive connection. | partially_correct_incomplete |
Explain why circuit 4 is not a short circuit.||Circuit 4 has no closed paths||the bulb is not connected to the positive connection of the battery. | partially_correct_incomplete |
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