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Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks he puts in the truck the less the truck will travel. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||That it is increasing by the matter of seconds. | irrelevant |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more number of blocks the less distance it goes or the less block the more distance. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The number of blocks is measuring by meters. | irrelevant |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||If the truck has less blocks it goes further. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks you add the less distance it would go. It would have more mass. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks Don added the slower the toy truck will go. | partially_correct_incomplete |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||That will more number of blocks the slower it goes. | partially_correct_incomplete |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The distance of the meter is going lower. The number of blocks is going lower too. | contradictory |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The distance of the meter is going lower. Number of blocks is getting lower too. | contradictory |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks added the farther it went. | contradictory |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks the less it goes. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||It goes up each one. | contradictory |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The relationship is that each time he add a block it goes about one meter lower. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks the less it will go. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks it carried the less farther it would go. | correct |
Don wanted to find out if a battery powered toy truck would always travel the same distance in 10 seconds no matter how heavy a load the truck carried. He placed one or more blocks (the load) in the back of the truck and recorded his results. (Each block had the same mass.) The following graph displays his results. What is the relationship between the number of blocks and the distance traveled by the truck in 10 seconds?||The more blocks the truck carries, the less distance the truck travels in 10 seconds.||The more blocks the less meters it goes. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because when you use a mixture and as it dissolve it is a solution. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Maybe it could change to him and have something die. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||I think jam is mixture. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because they dissolved. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||When the mixture is clear and no material is on the bottom. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||The evidence Jim has is the material on the bottom and the solid because a solution has 2 or more things combined. | contradictory |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||That the water is clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||My evidence is a solution can be clear or evaporated by heat and so all of them are clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||The evidence he has is that it is clear and nothing on bottom to be a solution. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because it was clear and nothing on the bottom. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||He put the solid in the water and the solid dissolved into the water. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Mixtures one, 3, and possibly 2 are clear a sign that the material has dissolved and made a solution. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Mixtures one and 2 are solutions because they are clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||It has to be clear with nothing on bottom. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||When the solid material is disappeared. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||I know it is a solid because it has stuff in the but mine. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||That there is undissolved particle at the bottom. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Mixtures 4 and 5 are evidence. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because a solution is clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||He has that he put a solute in the solvent and it came out clear and nothing on bottom. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||His evidence is the mixture turned clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||If the material dissolved it is a solution. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because the solid dissolve. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||The evidence is the water cannot take any more ingredients. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because there is nothing at the bottom. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||That if it does have material at the bottom that it is not. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because the solid dissolve. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||There is material on the bottom and that means it is saturated solution. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||Because some of them have a dissolved solid. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||The mixtures are clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||How much water is in it, and how much spoons of solid are in it. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||When the solid disappears into the solvent. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||His mixture is clear. | correct |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||One spoon. | irrelevant |
Jim used a solid and water to make Mixture one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), Mixture 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and Mixture 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. What evidence does Jim have that the solid and water make a solution?||The mixtures are all clear.||He does not have an idea that island make a salt outline. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The blue covered was very hot. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That they both are at 5, 10, 15, 20. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The covered one get hotter than the uncovered ones. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells about using the solar water heater on the data chart. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The one is that are cover they heat up more sun and it gets hotter. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That covered sometimes gets the hottest. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That the sun absorbs more heat, with dark colors. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||Is that covered is more lighter. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That by being covered the colors attract more heat. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||Blue was the darkest color and it was covered and that is how it got hotter. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That the cover absorbs more heat. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It absorbs more heat. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells if you use a cover it gets hotter than not using a cover. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells me because they are air in different position. And they are more longer than covered. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||When you cover the container you get more heat than uncovered. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The blue covered have more time than red covered. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||How the temperature goes upward down. | contradictory |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||With a cover it does make it warmer but I think it depends on what color is underneath it. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||If something is covered with a dark color it will receive more heat from the sun and the heat will stay in. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That the solar heat is getting hotter. And that it is up to about 20 minute almost to 25. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||Because it goes to the side and all different ways. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That it will heat up faster than uncovered would. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||Heats up faster. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||Covering keeps the heat inside the container. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It heats up faster. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells me that if you use a cover the water will heat. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells you that using a cover can make the water hotter because it is trap. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells you that it will heat up faster. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It the solar water heater has a cover it is going to get hotter. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It gets hot faster with covered because when water starts to get hot no air comes in it starts to get hotter. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It will kept on raising and raising. | irrelevant |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||It tells me if you put a red uncovered it will not heat as much, If you put a red covered it will heat more than the red uncovered. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The graph show that using a cover heats up the water on absorbs heat faster than without a cover because if it has a cover the breeze will not blow away the heat of the surface of the water. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||That the blue covered one is the hottest and the red uncovered one is the coldest. | contradictory |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||By saying that the covered one get more hotter and the darker it is it is going to end up hot. | correct |
Andi and Scott decided to investigate solar water heaters using collectors of different colors (but the same size) as one variable and covered versus uncovered as a second variable. Look at the graph of their data and answer the questions below. What does the graph tell you about the effect of using a cover?||Water heats up faster when covered.||The graph tells us that the blue covered will get hotter because with the lid it got much more hotter. | correct |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||Greater than because mixture 5 has the same amount of water with more spoons of solid. | contradictory |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||Greater than because it have 5 spoon of clear material. | contradictory |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||Mixture 5 because they have the same amount of water but mixture 5 has more spoon. | contradictory |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||Greater than mixture 4. | contradictory |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||It is the same because it has the same stuff at the bottom. | partially_correct_incomplete |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||The same because in the picture of mixture 4 and 5, they show the same salt on the bottom. | correct |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||They are the same and equal concentrated. | partially_correct_incomplete |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||Mixtures is the same concentration, because both of the mixtures are saturated. | correct |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||It is greater than because mixture 4 has more room to dissolve than mixture 5. | contradictory |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||The same, because both solutions have the same saturation point so they have the same concentration and amount of solid. | correct |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||The same because they both reached the saturation point. | correct |
Jim used a solid and water to make Mixtures one (one spoon of solid in 100 milliliters water was clear with nothing on the bottom), 3 (3 spoons of solid in 100 milliliters water was clear with nothing on the bottom), 4 (4 spoons of solid in 100 milliliters water was clear with material on the bottom), and 5 (5 spoons of solid in 100 milliliters water was clear with material on the bottom) as shown below. He stirred each one and observed the results. Is the concentration of Mixture 5 less than, greater than, or the same as the concentration of Mixture 4? Explain your answer.||The concentrations are the same because both mixtures are saturated.||They are the same amount concentrated because they have the same amount of water and dissolved material. | correct |
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