johnpaulbin/autonlp-data-asag-v2 · Datasets at Hugging Face

input stringlengths 48 1.52k	grade stringclasses 5 values
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|The terminal 1 is seperated from terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 6 is connected to the positive battery terminal	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there is a gap between the positive battery terminal and terminal 1 and terminal 6.	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Because terminal 1 is not connected to terminal 6.	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|because there is a gap in the connection between terminal 1 and terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal is connected to terminal 6	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is connected to terminal 6	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 6 is connected to terminal 1	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 6 has gap	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|l	non_domain
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|difference in electrial state	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 6 is connected to postive terminal of battery	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there is a gap	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|the terminals are separated by a gap	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|because there is a gap	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|connected to positive terminal	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|positve battery terminal	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is connected to the negative terminal and terminal 6 is connected to the positive terminal	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is connected to the negative battery terminal and terminal 6 is connected to the positive battery terminal	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|The terminals are not connected	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 1 was connected to a positive terminal 6.	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 1 was connected to a positive battery terminal.	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminals 1 and 6 are seperated by a gap	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|A terminal is connected to the positive battery terminal.	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|A terminal is not connected to the negative battery terminal.	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|A terminal is not connected to the positive battery terminal.	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 and terminal 6 are seperated by a gap	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|a gap separates terminal 1 from terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is seperate from terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is conected to terminal 6	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 is connected to negative	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|because they are separated by a gap	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 6 is connected to the positive battery terminal.	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there is a gap between them - not connected	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 6 is connected to the positive terminal of the battery	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal one is not connected to terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there"s a gap	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|because there is a positive and negative connections	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|There is a gap between the two terminals	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|they are connected to different terminals	partially_correct_incomplete
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|it closes the circuit	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|1s connected to 6	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there is a gap seperating terminal 1 from terminal 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|connected tpo positive sie= circuit complete	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Because they are not connected within the same terminal.	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|There is a gap between terminal 1 and terminal 6.	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|there is a gap between terminals 1 and 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|terminal 1 and terminal 6 are not connected, there is a gap	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|because there is a gap between terminal 1 and terminal 6.	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Because terminal 1 and 6 are connceted to the battery.	irrelevant
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 1 is connected to terminal 6 which is on the other side of the short circuit	contradictory
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|There is a gap between 1 and 6	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|Terminal 1 is not connected to terminal 6 because there is a gap.	correct
Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.\|\|Terminals 1 and 6 are separated by the gap\|\|they are separated by a gap.	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 will not 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\|\|there is no closed path that contains the battery, bulb b, and bulb c	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|creates 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\|\|they are all in the same path	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 will no longer be in closed paths 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\|\|damaged bulb a creates 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\|\|bulb a creates a gap in teh circuit.	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|the bulb creates 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\|\|bulb a creates a gap in teh path.	correct
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 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\|\|seperates the voltage	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 will be on open paths 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 in the same path of 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\|\|Because there is 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\|\|They are all on 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\|\|i dont know then	non_domain
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|njo	non_domain
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|nooyutgyhjiko	non_domain
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 will not 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 b and bulb c are still contained 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\|\|l	non_domain
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|The path is not closed.	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|a is 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\|\|bulb a still has a path to the battery	irrelevant
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|connection	contradictory
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 their closed paths	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 the same closed path as both bulbs b and c	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 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\|\|closed path	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	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 are not in a closed path with bulb 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 is on the same path as B and C	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|Bulb A and B and C are on the same paths	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 not on a 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\|\|both bulbs B and C are in the same path as 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\|\|tell answer	non_domain
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|Bulb A will create 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 a created a gap	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|there is no 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\|\|bulb b will not be in a closed path with the battery. bulb c will not 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\|\|if bulb A is damaged the closed path has a gap. bulb b and bulb c are no longer 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\|\|if bulb a is damaged bulb b and bulb c are no longer 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\|\|There will be a gap a 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\|\|damaging bulb a creates a gap.	correct
Explain your reasoning.\|\|If bulb A burns out, B and C are no longer in a closed path with the battery\|\|there is not a closed path that contains the batteyr and bulb b and bulb c	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 b and bulb c are still contained in closed paths with the battery	contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||The terminal 1 is seperated from terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 6 is connected to the positive battery terminal

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there is a gap between the positive battery terminal and terminal 1 and terminal 6.

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Because terminal 1 is not connected to terminal 6.

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||because there is a gap in the connection between terminal 1 and terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal is connected to terminal 6

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is connected to terminal 6

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 6 is connected to terminal 1

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 6 has gap

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||l

non_domain

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||difference in electrial state

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 6 is connected to postive terminal of battery

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there is a gap

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||the terminals are separated by a gap

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||because there is a gap

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||connected to positive terminal

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||positve battery terminal

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is connected to the negative terminal and terminal 6 is connected to the positive terminal

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is connected to the negative battery terminal and terminal 6 is connected to the positive battery terminal

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||The terminals are not connected

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 1 was connected to a positive terminal 6.

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 1 was connected to a positive battery terminal.

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminals 1 and 6 are seperated by a gap

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||A terminal is connected to the positive battery terminal.

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||A terminal is not connected to the negative battery terminal.

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||A terminal is not connected to the positive battery terminal.

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 and terminal 6 are seperated by a gap

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||a gap separates terminal 1 from terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is seperate from terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is conected to terminal 6

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 is connected to negative

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||because they are separated by a gap

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 6 is connected to the positive battery terminal.

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there is a gap between them - not connected

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 6 is connected to the positive terminal of the battery

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal one is not connected to terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there"s a gap

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||because there is a positive and negative connections

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||There is a gap between the two terminals

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||they are connected to different terminals

partially_correct_incomplete

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||it closes the circuit

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||1s connected to 6

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there is a gap seperating terminal 1 from terminal 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||connected tpo positive sie= circuit complete

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Because they are not connected within the same terminal.

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||There is a gap between terminal 1 and terminal 6.

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||there is a gap between terminals 1 and 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||terminal 1 and terminal 6 are not connected, there is a gap

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||because there is a gap between terminal 1 and terminal 6.

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Because terminal 1 and 6 are connceted to the battery.

irrelevant

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 1 is connected to terminal 6 which is on the other side of the short circuit

contradictory

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||There is a gap between 1 and 6

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||Terminal 1 is not connected to terminal 6 because there is a gap.

correct

Explain why you got a voltage reading of 1.5 for terminal 1 and terminal 6.||Terminals 1 and 6 are separated by the gap||they are separated by a gap.

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 will not 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||there is no closed path that contains the battery, bulb b, and bulb c

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||creates 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||they are all in the same path

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 will no longer be in closed paths 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||damaged bulb a creates 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||bulb a creates a gap in teh circuit.

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||the bulb creates 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||bulb a creates a gap in teh path.

correct

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 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||seperates the voltage

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 will be on open paths 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 in the same path of 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||Because there is 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||They are all on 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||i dont know then

non_domain

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||njo

non_domain

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||nooyutgyhjiko

non_domain

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 will not 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 b and bulb c are still contained 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||l

non_domain

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||The path is not closed.

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||a is 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||bulb a still has a path to the battery

irrelevant

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||connection

contradictory

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 their closed paths

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 the same closed path as both bulbs b and c

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 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||closed path

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

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 are not in a closed path with bulb 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 is on the same path as B and C

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A and B and C are on the same paths

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 not on a 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||both bulbs B and C are in the same path as 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||tell answer

non_domain

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||Bulb A will create 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 a created a gap

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||there is no 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||bulb b will not be in a closed path with the battery. bulb c will not 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||if bulb A is damaged the closed path has a gap. bulb b and bulb c are no longer 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||if bulb a is damaged bulb b and bulb c are no longer 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||There will be a gap a 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||damaging bulb a creates a gap.

correct

Explain your reasoning.||If bulb A burns out, B and C are no longer in a closed path with the battery||there is not a closed path that contains the batteyr and bulb b and bulb c

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 b and bulb c are still contained in closed paths with the battery

contradictory