input
stringlengths 48
1.52k
| grade
stringclasses 5
values |
|---|---|
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. The graph helped me by showing the temperature. The dry soil is darker with no heat sink material like water to slow the absorption of heat. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Dry soil heats up quickly and more than water but loses its heat quickly like line A on the graph. | correct |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Because dry soil heats more in the sun. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. The graph helped me decide which container had the dry soil because I know that water is a heat sink and I know that heat sinks bring in heat slower and lets it out slow. | correct |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Had wet soil it takes a longer time for it to heat up. So the dry soil would heat up faster. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||B. The graph helped me because dry soil is not a heat sink like water so it does not absorb the heat as fast. | contradictory |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||B. Well, I know that water will heat up faster and I thought that maybe the soil will not heat up faster. | contradictory |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. A because dry heats up faster because it has no breeze or moisten anything to where is absorbs more. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Because dry soil absorbs solar energy faster because it is not a heat sink. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Because water is a heat sink so it heats up slowly and soil heats up quickly. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Because it heats up faster. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. The graph help me because I know that dry soil is black which perhaps it will get hotter unlike the water it reflects the sun's energy. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Water makes things cooler so the dry soil gets hotter. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. I know that container A had the dry soil because dry soil heats up the fastest in the sun and goes down in the shade. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||B. The graph helped me decide which container had dry soil because I know that water is a better heat sink and wet soil has water in it. | contradictory |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. A was the highest because dry soil heats faster. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Container A had dry soil because non wet materials or dry materials will heat up faster than wet materials because wet materials are heat sinks and they take longer to absorb and release heat. | correct |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Dry soil is A because dry soil is a earth material and absorbs the sun's energy more than B. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. It helped me because container A has the highest temperature than container B. | partially_correct_incomplete |
The graph shows temperature data from 2 containers. One container had 100 milliliters of water and the other had 100 milliliters of dry soil. Each container was placed in the sun for 20 minutes and then in the shade for 20 minutes. Which container, A or B, had the dry soil? Explain how the graph helped you decide which container had the dry soil.||A. Dry soil heats more quickly and cools off more quickly than water. The graph shows A heats and cools more quickly than B, so A must be the dry soil.||A. Water is a heat sink and will heat up slow but there is no water in dry soil so it heats up fast. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Earth material get deposited and forms a delta. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||It goes to a different place. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Earth material gets deposited to another place. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||They go to a different place. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The materials like burst away. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials that were weathered away by the erosion flow farther in water or just move away from where they were. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth materials are moved to different places. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The eroded earth materials during deposition get deposited to a different area. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth material gets worn away. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth explains the and it will but it will explode. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||What happens to it is that the deposition goes more far away from the stream table. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth material will break into little pieces. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||First, erosion wears all the materials away. Then, deposition makes a v shaped valley. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||They go to the mouth of river and deposits there. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The socks, sand, and clay start to make a bigger canyon. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials are carried away and dropped off at the end. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials get carried away during deposition. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Earth materials get carried away. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth materials would get carried away to a new location. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Earth materials are washed away and settled to the bottom. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Earth materials are washed downstream and then start to build up land. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||Deposition is when earth materials move from one. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||They are dark in new places. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials that have been eroded is deposited at the mouth of a river or stream forming a delta. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||It is placed and left in deltas and riverbanks. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||After deposition earth material is carried out to river banks. Deltas form and into the ocean. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials were broken down and separated. | contradictory |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition the materials are getting washed downstream and when the river comes to an opening they get deposited. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth materials get deposited into other places. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The wearing down of earth material which will deposited. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth material settles to the bottom of a river. | correct |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||They are carried and stack upon each other and settle to the bottom. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||The earth materials is get carried off to the mouth of a river. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth materials are moved to a different place. | partially_correct_incomplete |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||What happens to earth material during deposition is that the materials are worn away from the earth. | irrelevant |
What happens to earth materials during deposition?||Earth materials settle out during deposition.||During deposition earth material is deposited it formed deltas, a canyon, and a channel. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid was too big to go through the filter paper. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the little piece of the liquid and the undissolved is bigger. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||It is separate because the paper filter is liquid. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the solid is too heavy to go through the paper. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Solid is too big to go through the filter hole. Liquid is just water that can go through almost anything. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the filter cannot hold the water because the filter already has water in it. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The holes in the filter are smaller than the solid particles, and the water particles are smaller than the holes, so the water goes through the filter while the solid will not go through. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the particle size was too big and the filter could not hold any more water because it was wet. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because when the solid touches the side, it sticks. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the solid was bigger than the liquid so it got stuck! | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because she did not wet the filter and when she put the water they got wet. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the materials are too big to go through the holes but the water is not too big to go through the holes in the filter. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||It stays in the filter because the solid material does not count as the solution. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid does not go through the filter like the liquid because the liquid is small enough to go through the filter but the solid is too large. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because it is a thick. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the holes in the filter are too small for the solid to go through them. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid stayed in because it was too big to go through the microscopic holes in the filter paper. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid stays in the filter because the particles are too big to go through but dissolved can go through because the particles are small enough. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||It stays at the top because it is too big to go through the filter and the water is just a liquid. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid is hard. It cannot go through because it is not a liquid. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the solute in the saturated solution dissolved and were dispersed equally. The material that did not go through was too big to go through. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the materials are stuck together with water and cannot go through the tiny holes in the filter. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because when the water goes through the filter some water stays which helps the filter catch the sugar. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because it is too thick to slide down the filter. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the solid stay because it is too big and water it can just go through things like that. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because they are big. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid stayed in because it was not as watery and it was bigger chucks. The liquid is watery and so it went through. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid stays in the filter because the filter's holes are too small for the liquid to go through. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because paper absorbent and solids cannot go through solids. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The liquid was too big to go through the holes. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because in the filter paper there are little holes! | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid would be too big to pass through the small holes in the filter paper. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||The solid stays because its particle size was too large to go through the filter. | correct |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because water goes through the paper and the salt is not water. | irrelevant |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the liquid is a substance that can go through most objects with small or tiny holes and solid cannot. | partially_correct_incomplete |
Joanne mixed material R and material D together, added water, and stirred. After a few minutes, the liquid was clear and there was a solid on the bottom of the cup. Joanne used a paper filter to separate the solid from the liquid. Why does the solid stay in the filter when the liquid goes through?||The particles of the solid are too big to go through the holes in the paper filter.||Because the solid did not dissolve. | irrelevant |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||If it show on south east the shadow will be facing north east. | irrelevant |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||In the early afternoon it would look point, north east. | irrelevant |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||The tree has a shadow because the tree blocked the sun from hitting the ground. | correct |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||There is a shadow there because the sun is behind it and light cannot go through solid objects. Note, I think that question was kind of dumb. | correct |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||Because the sun is over it. | irrelevant |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||Because the tree is of front. | irrelevant |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||Because the sun hits the tree with light and part of the tree is breaking it creates a shadow. | correct |
Why does the tree shown in the picture have a shadow?||The tree blocks the light from the Sun.||Because everything has a shadow and because of the sun. | irrelevant |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.