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When quite hot through, thicken the gravy with a little butter rolled in flour, and, just before dishing the fricassee, put in the beaten yolks of eggs and lemon-juice; but be particular, after these two latter ingredients are added, that the sauce does not boil, or it will curdle. ||||| To insure the sauce being smooth, it is a good plan to dish the meat first, and then to add the eggs to the gravy: when these are set, the sauce may be poured over the meat.
|
Is the calf's head meat still in the pot at the time that Sentence 5 is done Yes
| true |
2
|
Fiction/gutenberg-10136.txt
| false |
When quite hot through, thicken the gravy with a little butter rolled in flour, and, just before dishing the fricassee, put in the beaten yolks of eggs and lemon-juice; but be particular, after these two latter ingredients are added, that the sauce does not boil, or it will curdle. ||||| To insure the sauce being smooth, it is a good plan to dish the meat first, and then to add the eggs to the gravy: when these are set, the sauce may be poured over the meat.
|
Is the calf's head meat still in the pot at the time that Sentence 5 is done Yes, the calf's head meat is in the pot at the same time Sentence is done
| true |
2
|
Fiction/gutenberg-10136.txt
| false |
When quite hot through, thicken the gravy with a little butter rolled in flour, and, just before dishing the fricassee, put in the beaten yolks of eggs and lemon-juice; but be particular, after these two latter ingredients are added, that the sauce does not boil, or it will curdle. ||||| To insure the sauce being smooth, it is a good plan to dish the meat first, and then to add the eggs to the gravy: when these are set, the sauce may be poured over the meat.
|
Is the calf's head meat still in the pot at the time that Sentence 5 is done Partly
| false |
2
|
Fiction/gutenberg-10136.txt
| false |
When quite hot through, thicken the gravy with a little butter rolled in flour, and, just before dishing the fricassee, put in the beaten yolks of eggs and lemon-juice; but be particular, after these two latter ingredients are added, that the sauce does not boil, or it will curdle. ||||| To insure the sauce being smooth, it is a good plan to dish the meat first, and then to add the eggs to the gravy: when these are set, the sauce may be poured over the meat.
|
Is the calf's head meat still in the pot at the time that Sentence 5 is done No, you should dish the meat first
| false |
2
|
Fiction/gutenberg-10136.txt
| false |
When quite hot through, thicken the gravy with a little butter rolled in flour, and, just before dishing the fricassee, put in the beaten yolks of eggs and lemon-juice; but be particular, after these two latter ingredients are added, that the sauce does not boil, or it will curdle. ||||| To insure the sauce being smooth, it is a good plan to dish the meat first, and then to add the eggs to the gravy: when these are set, the sauce may be poured over the meat.
|
Is the calf's head meat still in the pot at the time that Sentence 5 is done No, the calf's head meat is not in the pot at the same time that Sentence is done
| false |
2
|
Fiction/gutenberg-10136.txt
| false |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Would Einstein live to disprove the theory he had a role in developing No, he died at age 76 without disproving quantum theory and mechanics
| true |
0
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Would Einstein live to disprove the theory he had a role in developing Maybe
| false |
0
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Would Einstein live to disprove the theory he had a role in developing Yes
| false |
0
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
What did Einstein publish in that showed the statistics of absorption and proposed the possibility of stimulated emission Schrodinger's work of 1926
| false |
1
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
What did Einstein publish in that showed the statistics of absorption and proposed the possibility of stimulated emission Physikalische Zeitschrift
| true |
1
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
What did Einstein publish in that showed the statistics of absorption and proposed the possibility of stimulated emission Article in Physikalische Zeitschrift
| true |
1
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
When did Einstein publish an article that was aligned with Planck's distribution la The height of his work on relativity, 1917
| true |
2
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
When did Einstein publish an article that was aligned with Planck's distribution la 1917
| true |
2
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In 1917, at the height of his work on relativity, Einstein published an article in Physikalische Zeitschrift that proposed the possibility of stimulated emission, the physical process that makes possible the maser and the laser. ||||| This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode.
|
When did Einstein publish an article that was aligned with Planck's distribution la 1926
| false |
2
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein discovered Louis de Broglie's work, and supported his ideas, which were received skeptically at first. ||||| In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics.
|
After discovering Louis de Broglie's work, what did Einstein give for de Broglie waves Hamilton-Jacobi equation
| false |
3
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein discovered Louis de Broglie's work, and supported his ideas, which were received skeptically at first. ||||| In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics.
|
After discovering Louis de Broglie's work, what did Einstein give for de Broglie waves A wave equation
| true |
3
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode. ||||| This paper was enormously influential in the later development of quantum mechanics, because it was the first paper to show that the statistics of atomic transitions had simple laws.
|
What was the paper that was influential in the development of quantum mechanics about Schrodinger's work of 1926
| false |
4
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode. ||||| This paper was enormously influential in the later development of quantum mechanics, because it was the first paper to show that the statistics of atomic transitions had simple laws.
|
What was the paper that was influential in the development of quantum mechanics about Statistics of absorption and emission of light
| true |
4
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode. ||||| This paper was enormously influential in the later development of quantum mechanics, because it was the first paper to show that the statistics of atomic transitions had simple laws.
|
What was the paper that was influential in the development of quantum mechanics about Physikalische Zeitschrift
| false |
4
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
This article showed that the statistics of absorption and emission of light would only be consistent with Planck's distribution law if the emission of light into a mode with n photons would be enhanced statistically compared to the emission of light into an empty mode. ||||| This paper was enormously influential in the later development of quantum mechanics, because it was the first paper to show that the statistics of atomic transitions had simple laws.
|
What was the paper that was influential in the development of quantum mechanics about Article in Physikalische Zeitschrift
| true |
4
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Einstein continued to maintain his disbelief in what theory De Broglie theory
| false |
5
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Einstein continued to maintain his disbelief in what theory Quantum theory
| true |
5
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein was displeased with quantum theory and mechanics (the very theory he helped create), despite its acceptance by other physicists, stating that God "is not playing at dice." ||||| Einstein continued to maintain his disbelief in the theory, and attempted unsuccessfully to disprove it until he died at the age of 76.
|
Einstein continued to maintain his disbelief in what theory Schrodinger theory
| false |
5
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
The inspiration for Schrodinger's work came from what equation Hamilton-Jacobi equation
| true |
6
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
The inspiration for Schrodinger's work came from what equation De Broglie equation
| false |
6
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
The inspiration for Schrodinger's work came from what equation Einstein equation
| false |
6
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
The inspiration for Schrodinger's work came from what equation Hamilton-Jacob equation of mechanics
| true |
6
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| true |
Einstein discovered Louis de Broglie's work, and supported his ideas, which were received skeptically at first. ||||| In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
Who's work did Einstein discover that would later inspire Schrodinger's work Schrodinger
| false |
7
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
Einstein discovered Louis de Broglie's work, and supported his ideas, which were received skeptically at first. ||||| In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
Who's work did Einstein discover that would later inspire Schrodinger's work Plank
| false |
7
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
Einstein discovered Louis de Broglie's work, and supported his ideas, which were received skeptically at first. ||||| In another major paper from this era, Einstein gave a wave equation for de Broglie waves, which Einstein suggested was the Hamilton-Jacobi equation of mechanics. ||||| This paper would inspire Schrodinger's work of 1926.
|
Who's work did Einstein discover that would later inspire Schrodinger's work Louis de Broglie
| true |
7
|
Wiki_articles-paragraphs-wikiAlbert Einstein-62.txt
| false |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens Positive charges build up
| false |
0
|
Science-textbook/science-g3-0.txt
| true |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens A static charge creates balance
| false |
0
|
Science-textbook/science-g3-0.txt
| true |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens Nothing
| true |
0
|
Science-textbook/science-g3-0.txt
| true |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens "It does not move."
| true |
0
|
Science-textbook/science-g3-0.txt
| true |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens It moves to create imbalance
| false |
0
|
Science-textbook/science-g3-0.txt
| true |
Static electricity is like a teeter-totter. ||||| What happens if a teeter-totter is balanced? ||||| It does not move.
|
When static electricity is balanced like a teeter-totter, what happens It moves
| false |
0
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
Does a teeter-totter move if it is balanced No it does not
| true |
1
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
Does a teeter-totter move if it is balanced Yes it will move
| false |
1
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
Does a teeter-totter move if it is balanced I don't know
| false |
1
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced There would be a positve or negative charge
| true |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced There is a neutral charge
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced There is a bad charge
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced It sits still
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced It moves and increase its charge
| true |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced Charges move, building up friction
| true |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced It moves causing a charge
| true |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced It does not move
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced There is a good charge
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
What happens if static electricity is not balanced There is a positive charge for sure
| false |
2
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Negative or positive charge
| true |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Neutral charge
| false |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what A teeter totter
| false |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Zero Charges
| false |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what The difference in charge is called static electricity
| true |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Bad charge
| false |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Positive charge
| true |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what "Static electricity"
| true |
3
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| The difference in charge is called static electricity.
|
If two items build unbalanced charges, the difference is called what Good charge
| false |
3
|
Science-textbook/science-g3-0.txt
| true |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Stomp your feet on wool mat or carpet
| false |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Jump up and down on wool mat or carpet
| false |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Maybe you rub your feet on a wool mat or carpet
| true |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Rub rubber shoes on wool mat or carpet
| true |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Two items become unbalanced
| false |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction Stomp your shoes on wool mat or carpet
| false |
4
|
Science-textbook/science-g3-0.txt
| false |
Charges can build up by friction. ||||| Maybe you rub your feet on a wool mat or carpet.
|
What is an example of how charges build up by friction You rub water on your face
| false |
4
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Moving charge
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Neutral charge
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Negative
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Both positive and negative
| true |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Imbalanced charge
| true |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Electricity on a teeter-totter
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Charges can build up by friction
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Unbalanced charge
| true |
5
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charge is required for static electricity Positive
| false |
5
|
Science-textbook/science-g3-0.txt
| false |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Outside charges
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Neutral
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Negative Charge and Positive Charge
| true |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Good charges
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Positive and negative
| true |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Negative
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Static Charge
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Negative charges
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Bad Charges
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
The two items become unbalanced. ||||| One item has a positive charge.
|
What two types of charges build up in unbalanced items Positive
| false |
6
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what "Friction"
| true |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Rubbing rubber shoes on mat or carpet
| true |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Opposite charge or build up charge
| true |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Rubber
| false |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Rubbing your feet on wool mat or carpet
| true |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Stomping on a carpet
| false |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Water
| false |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Jumping up and down
| false |
7
|
Science-textbook/science-g3-0.txt
| true |
Charges move when they are not balanced. ||||| Charges can build up by friction.
|
Charges can move when they are unbalanced by what Wool
| false |
7
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
What happens if a teeter-totter is balanced Nothing it doesnt move
| true |
8
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
What happens if a teeter-totter is balanced It doesn't move
| true |
8
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
What happens if a teeter-totter is balanced It will move
| false |
8
|
Science-textbook/science-g3-0.txt
| true |
What happens if a teeter-totter is balanced? ||||| It does not move.
|
What happens if a teeter-totter is balanced It means the charges are imbalanced
| false |
8
|
Science-textbook/science-g3-0.txt
| true |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charges are needed to produce static electricity Negative charge
| false |
9
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charges are needed to produce static electricity Neutral charge
| false |
9
|
Science-textbook/science-g3-0.txt
| false |
One item has a positive charge. ||||| The other has a negative charge. ||||| The difference in charge is called static electricity.
|
What kind of charges are needed to produce static electricity Stationary
| false |
9
|
Science-textbook/science-g3-0.txt
| false |
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