input
stringlengths 48
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What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||that the terminals are not connected to each other
|
correct
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||there is a difference in electrical states
|
irrelevant
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||the bulb is connected to the opposite terminal of the battery
|
partially_correct_incomplete
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||Their is a gap.
|
correct
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||The electrical states differ.
|
partially_correct_incomplete
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||that the terminals are connected to each other
|
contradictory
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||The bulb is connected to the opposite end of the battery
|
partially_correct_incomplete
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||That the terminals are not connected to each other.
|
correct
|
What does a voltage reading of 1.5 tell you about the connection between a bulb terminal and a battery terminal?||the terminals are not connected||They terminals are connected to each other.
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||there is one path though bulb a and a second path through bulb b and c. The two paths are independent from one another. If one bulb goes out in one of the path it only affect the bulbs within that same path
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||there are two independent paths.only the components within the same path effect each other
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||only the components within the same path effect on another
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a doesn"t affect bulb b or c
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is contained within a complete path with the battery, but bulb b and c are on the same path so if one is burned out the other will burn out too
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||i don"t know
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a does not affect the path of bulb b and c
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb b and bulb c are in the same path so if one burns out the other will nott work. bulb a is contained within a different path and will not burn out if bulb b or c is damaged because it is still contained in a closed path with the battery
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||no
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||i gave you an answer
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||next question please
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulbs b and c are paired together in one closed path with the battery. bulb a is by itself in a closed path with the battery.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is in parallel with bulbs b and c. bulbs b and c are in a series and they depend on each other to close the path.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a does not affect bulb b and bulb c. bulb b and bulb c are on their own path with the battery.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is on a closed path with the battery. if bulb b or c is damaged, it creates and open path for bulbs b and c
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is on a closed path with the battery
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is in a path that is not affected by the other two bulbs. bulbs b and c are in a path that is affected if either of the bulbs burns out. bulbs b and c are not affected by bulb a.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a does not affect bulb b and bulb c. bulbs b and c, do not affect bulb a. bulb b affects bulb c, and bulb c affects bulb b.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is contained in a path with the battery and bulbs b and c are contained in a separate path with the battery.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulbs b and c will react the same, bulb a is seperate and can react differently
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulbs b and c are on the same path and react the same
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulbs b and c are on the path and react
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is not in the same path of bulb b and c. if bulb a is damaged, bulbs b and c are still lit.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a id not in the path of bulb b and c. if bulb a is damage, bulbs b and c are still lit.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is not in the path of bulbs b and c. if bulb a is damaged, bulbs b and c are still lit.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is on a seperate path than bulb B and bulb C. Bulb A will not affect bulb B and bulb C. Bulb B and bulb C will affect each other.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is not on the same path that Bulb B and bulb C are.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the paths aree on different terminals
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||path and bulb on the battery terminal
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the bulb is on a different path
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the bulb does not affect another bulb if they are on different paths
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||if two bulbs are contained in the same path the damaged bulb affects the other bulb
|
irrelevant
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the are in the same path
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the bulb contained in the same path go out
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is contained in a closed circuit
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||l
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb B and Bulb C are contained in a closed path.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||sigh, some things never change. this da 21st centuary, u woudl think they could have programmed you smarter
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||i do not understand
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||whichever bulb is in the same closed path effects eachother
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||no fuck you
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is contained in it"s own closed path, so no other bulbs affect it. bulbs b and c are contained in a closed path with the battery, so if one is burnt out it creates a gap in the path and it is not a complete circuit.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||no, i"m right!
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||if the bulb is contained in a closed path with another bulb, it will affect it
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a does not affect the other bulbs
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||separate paths
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||gaps
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is in a closed path with the battery, bulbs b and c are in a closed path with the battery, bulbs b and c effect each other
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||dont know
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is in a closed path with the battery
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||If Bulb A is out it does not affect the other bulbs because it is on a different path. If either B or C is out both B and C will be out but A will not be because Bulb A is not on the same path with Bulb B or C
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is on a different path than Bulb B and C so A is not affected with B and C go out and B and C are not affected with A goes out.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the bulb will be on if it is still on a closed path
|
irrelevant
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||tell answer
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is contained in a closed path with the battery. Bulbs B and C are contained in a closed path with the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||when bulb A burned out, bulb b and c were still contained in a closed path with the battery. When bulb b burned out, only bulb A was still contained in a closed path with the battery. When bulb c burned out, only bulb a was still contained in a closed path with the battery
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||if a a bulb is out on the some path as another bulb than the bulb is also out
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||if two bulbs are on the same path and one of them is out then both of them are out
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||if two bulbs are on the same path and one of them s out then both bulbs are out
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb does not affect a different path
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||when bulb a is out, bulb b and bulb c are still in a closed path with the battery. when bulb b is out, bulb a is still in a closed path with the battery and bulb c is not in a closed path with the battery. when bulb c is out, bulb a is still in a closed path with the battery and bulb b is not in a closed path with the battery.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a is in a closed path with the battery. bulb b and bulb c are in a closed path with the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb A is in a closed path with the battery. Bulb B and bulb C are in series in a closed path with the battery. Bulb A is in parallel with bulb B and bulb C.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||There are 2 paths in this diagram
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||There are 2 different paths in this diagram
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||they are closed pathes with the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||i give up.
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||There is a closed path that contains the battery and bulb a and bulbs b and c. if a is burned out, it only accounts for bulb a. if b is burned out, then there is a gap in the path that contains the battery and bulb b and bulb c. if c ib burned out, then there is a gap in the path that contains the battery and bulb b and bulb c.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||there is a closed path only when the bulbs are not damaged
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||there is a closed path that contains the battery and bulb a. there is a closed path that contains the battery and bulb b and bulb c
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||the path containing a is seperate from the path containing b and c
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||.
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb a has its own closed path with the battery, bulbs b and c do not
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb b and bulb c share a closed path with the battery, bulb a has its own closed path with the battery
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||a bulb and a battery must share a path
|
irrelevant
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||when bulb A is burned out B and C will stay on because they are still contained in the same path as the battery. When bulb B is burned out then C will be affect and A will not because B and C are contained within the same path as the battery. When bulb C is burned out then B will be off and A will be on becasue A is still contained within the same path as the battery
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||A is on a different path from B and C. When B is out it will affect C not A and when A is out if will not affect B or C because it is on a different path which still is contained in the same path as the battery
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb A will not affect bulbs B and C because B and C are still contained within the same path as the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A will not affect bulbs B and C because B and C are still contained within the same path with the battery
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||In this diagram, there are two separate closed paths. One path is bulb a and the battery. The other path is bulb b, bulb c and the battery. One path does not affect the other.
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb a is in a path with the battery. Bulbs b and c are in a path with the battery. Bulbs that are located in different paths will not affect each other
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||There are two complete paths in this diagram. Bulb a is in a complete path with the battery, and does not affect bulbs b and c. Bulbs b and c are in a complete path with the battery, and do not affect bulb a.
|
contradictory
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is on a separate path than Bulbs B and C. Bulb B and C share the same path to the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||When one bulb is out the others can still work because of the additional connections in the circuit path.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||im not sure how to
|
non_domain
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||bulb A is on a closed path with the battery. Bulb A is not affected by bulbs B or C. Bulbs B and C are on the same path. They affect one another. Bulbs B and C are not affected by bulb A.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||When B or C is out, the other bulb on that pathway will be out. Only A will remain unaffected, because it is on it"s own pathway connected to the battery
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is not on the same path as bulbs B and C, but bulbs B and C are on the same path
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A has a closed path directly to the battery, so the state of B/C doesn"t affect it. Bulbs B and C are on the same closed path to the battery, so if one goes out, it interrupts the other"s path to the battery.
|
partially_correct_incomplete
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||b and c are in series so one affects the other and a is in parallel so it doesn"t affect the others
|
correct
|
Describe the paths in this diagram and explain how those paths account for the results.||Bulb A is in a path which does not contain B and C, so bulbs B and C don't affect it. Bulbs B and C are in the same path. They affect each other, but Bulb A doesn't affect them.||Bulb A is in a separate path from bulbs B and C. So bulbs B and C affect each other because they are contained within the same path.
|
partially_correct_incomplete
|
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