sentence1 stringlengths 0 100k | sentence2 stringlengths 0 100k | score float64 0 5 |
|---|---|---|
because there is no gap between the terminals | terminal 1 is not separated from the negative battery terminal | 3 |
terminal 1 and 2 are connected to the negtive terminal of the battery | terminals 1 and 2 are connected | 3.4 |
there is always a difference in voltage between two battery terminals . | a battery uses a chemical reaction to maintain different electrical states at the terminals | 3 |
a batter uses a chemical reaction to create voltage | a battery uses a chemical reaction to maintain different electrical states at the terminals | 3.4 |
there was a gap in the circuit that c was on | bulb c was not in a closed path | 3.8 |
terminal 5 is connected to the postive battery terminal | terminal 5 and the positive terminal are connected | 4.6 |
when the switch is in the same papth as the bulb . | when the switch and the bulb are contained in the same path | 4.4 |
that the bulb terminal and battery terminal are on the same side of a disconnected circut | the terminals are in the same state . | 2.4 |
it tells you that it is connected to a positive battery terminal . | there is no gap between the terminals | 0.6 |
there are 2 paths in this diagram | there is a path containing a and a different path containing b and c | 3.2 |
bulb a was still contained in a closed path with the battery . | bulb a was still contained in the same closed path with the battery . | 4.8 |
there has to be a closed circuit battery . | the bulb and the battery are in a closed path | 1.8 |
because the bulb does not have a closed path . | the bulb is not in the closed path containing the battery | 3.6 |
becuase breaking one bulb then affects the ability of the others to light up . | a and c are in the same closed path | 1.2 |
because terminal 1 is directly connected to terminal 4 | terminals 1 and 4 are connected | 4.8 |
both bulbs a and c still have a closed path | bulbs a and c are still in closed paths | 5 |
voltage is the difference between a positive and negative end on a battery . | terminal 1 is connected to the negative battery terminal | 1 |
bulb a and bulb c are not on the same path as bulb b | a , b and c are in different paths | 3.4 |
the positive battery terminal and terminal 5 are connected | terminal 5 and the positive terminal are connected | 5 |
its not recieving from either the negative or positive terminal | there is no gap between the terminals | 1.6 |
terminal 4 is connected to the positive battery terminal . | terminal 4 and the positive terminal are connected | 5 |
if a bulb and a switch are contained in the same closed path , the switch affects the bulb . | when the switch and the bulb are contained in the same path | 2.6 |
bulb c is in its own pathway | bulb c is in a separate path | 4.8 |
bulb a and c still had a closed path with the battery . | bulbs a and c are still contained in closed paths with the battery | 4.6 |
the battery always has a voltage because there is a positive terminal and there is a negative terminal . | a battery uses a chemical reaction to maintain different electrical states at the terminals | 2.2 |
the positive terminal has 1.5 v | terminal 1 and the positive terminal are separated by the gap | 0.8 |
you can see where the gap is | measuring voltage indicates the place where the electrical state changes due to a gap . | 2.2 |
the bulb is in a closed circuit | the battery is in an open path | 0.4 |
not seperated by a gap | terminal 6 and the positive terminal are not separated by the gap | 2.2 |
a terminal is not connected to the negative battery terminal . | terminals 1 and 6 are not connected | 1.4 |
bulbs a , b , and c are all in the same path . | a and c are in the same path | 3.4 |
because voltage measures the difference between two points | terminal 1 and the positive terminal are separated by the gap | 1.4 |
bulb a is on a closed path with the battery | there is a path containing a and a different path containing b and c | 1.4 |
the battery and the bulb must be in a closed path together . | the bulb and the battery are in a closed path | 3.8 |
the difference between the electrical states is 1.5 volts | terminal 1 and the positive terminal are separated by the gap | 1.4 |
the bulb takes away the path . | there is an open path | 0.8 |
bulb c was in an open path , | bulb c was not in a closed path | 4.8 |
both bulbs b and c are in the same path as bulb a | if bulb a burns out , neither b nor c is in a closed path | 2.4 |
there is no difference between the two terminals . | the terminals are in the same state . | 4.4 |
bulb a and switch y are not in the same path . | switch y and bulb a are not in the same closed path | 5 |
bulb a is not on the same path that bulb b and bulb c are . | there is a path containing a and a different path containing b and c | 4.8 |
a red x means the battery is in a short circuit . | there is a short circuit | 2.8 |
if the switch is open in a path with the battery and bulb . | when the switch and the bulb are contained in the same path | 3.2 |
bulb a and bulb b are still in a closed path with the battery . | bulbs a and b are still in closed paths with the battery | 4.8 |
bulbs a and c are not in the same closed path as bulb b | bulb b is in a separate path | 3.4 |
if any bulb is out , it affects the whole system and everything is blocked from the battery . | each bulb is in its own path | 1.4 |
because the terminals are in the same state | terminal 1 is connected to the negative battery terminal | 1 |
4 , 5 , and 6 are connected to the positive side | terminals 4 , 5 and 6 are connected to the positive battery terminal | 4.2 |
it is an open path . | there is a short circuit | 0.8 |
because the the circuit is complete . | the path is not closed | 1.8 |
for the same reason as 3 | terminal 6 and the positive terminal are not separated by the gap | 0 |
the path will have a gap | each bulb is in its own path | 1.2 |
because their is a gap between a and c now . | there is an incomplete circuit | 3 |
terminal 1 and terminal 4 are the same | terminals 1 and 4 are connected and in the same electrical state | 3.6 |
the red x means that the circuit is not safe . | there is a short circuit | 1.8 |
there is still a closed path that contains the battery , bulb b , and bulb c . | bulbs b and c are still in closed paths with the battery | 4.6 |
4 5 and 6 are not connected to negative battery terminal | terminals 4 , 5 and 6 are not connected to the negative battery terminal | 4.4 |
it breaks the closed path . | the open switch creates a gap | 2.2 |
bulbs b anc c are on the same closed path with the battery but seperate from bulb a | there is a path containing a and a different path containing b and c | 4.2 |
" because it didn " " t cause a gap . " | each bulb is in its own path | 0.4 |
the terminal is connected to the battery | terminal 1 is connected to the negative battery terminal | 2.8 |
turning off one bulb will not turn off another bulb | a and c are in different paths | 0.6 |
terminal 5 is connected to postive terminal of the battery | terminal 5 and the positive terminal are connected | 4.8 |
if the switch is contained in the same path with the bulb | when the switch and the bulb are contained in the same path | 4.4 |
the positive battery terminal is separated by a gap from terminal 4 . | there is no gap between terminals 1 and 4 | 0.8 |
the other terminals are connected to the positive terminal . | terminals 4 , 5 and 6 are connected to the positive battery terminal | 2.8 |
because there is no closed path | the path is not closed | 4.6 |
because it creates a gap in the circuit . | a damaged bulb creates a gap | 3.8 |
a is on a cloosed battery | bulb a is still contained in a closed path with the battery . | 3.4 |
the light bulb must be connected to both sides of the battery and there must be a closed circuit . | there is a complete circuit | 1.8 |
terminal 5 is connected to the positive battery terminal . | terminal 5 and the positive terminal are connected | 5 |
if a switch is open , the circut is no longer closed . | the path is not closed | 2.4 |
bulb b and c are still in a closed path with the battery . | bulbs b and c are still in closed paths with the battery | 4.8 |
the terminal is not connected to the positive battery terminal | terminal 1 and the positive terminal are not connected | 4.2 |
bulb b did not create a gap in the path for bulb a and c | bulbs a and c are still in closed paths | 2.2 |
the positive battery terminal and terminal 4 are connected | terminal 4 and the positive terminal are connected | 5 |
the closed path still existed for bulb a even though switch y was open | bulb a is still contained in a closed path with the battery . | 3.2 |
bulb a was still in a closed path with the battery | bulb a was still contained in the same closed path with the battery . | 4.8 |
because it opens the circuit | there is an open path | 1.6 |
terminal 1 was connected to the positive battery terminal | terminal 1 and the positive terminal are separated by the gap | 2.8 |
bulbs a and b are not on the same path as bulb c . | bulb c is in a separate path | 3.4 |
the path passes the energy through the switch | if a bulb and a switch are in the same path the switch affects the bulb | 1.6 |
the open switch makes the path open | there is an open path | 2.8 |
bulbs a b and c are on a closed path | a and c are in the same closed path | 3 |
because all the terminals are connected to other terminals , an open switch disrupts that . | the open switch creates a gap | 3.2 |
terminal 1 is connected to terminal 4 | terminals 1 and 4 are connected | 5 |
the positive terminal is not seperated by a gap from terminal 5 | terminal 5 and the positive terminal are not separated by the gap | 5 |
there is no connection between the bulb terminal and the battery terminal . | the terminals are not connected | 3 |
the battery is not in a closed path . | the battery in 4 is not in a closed path | 3.8 |
there is a gap in the circuit | terminal 1 and the positive terminal are separated by the gap | 3.6 |
there will be a gap in the path | if bulb a burns out , neither b nor c is in a closed path | 1.6 |
because the terminals are not in a closed path , so you are giving the voltage of the battery itself | a battery uses a chemical reaction to maintain different electrical states at the terminals | 1.6 |
because of the gap at bulb b | terminals 1 , 2 and 3 are separated from the positive battery terminal by a gap | 1.4 |
switch y does not affect the closed circuit of bulb a | switch y and bulb a are not in the same closed path | 4 |
electrical states will determine whether there is a gap or connection in the circuit | measuring voltage indicates whether two terminals are separated by a gap . | 4.2 |
because a closed circuit was formed . | bulb a was still contained in the same closed path with the battery . | 2.4 |
if the switch and the bulb are in the same path . | when the switch and the bulb are contained in the same path | 4.2 |
because the outcome of the bulb will not affect each other | a and c are not in the same path with the battery | 0.8 |
you can find where there is a gap | measuring voltage indicates whether two terminals are separated by a gap . | 2.6 |
it is in a closed path with the battery | there is a path containing a , c , z and the battery | 2.4 |
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