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Grace set up a science experiment. Here's what she wrote in her notebook. First I put eggshells into a cup and covered them with vinegar. After a while, small bubbles appeared on the surface of the eggshells. The next day there were more bubbles. In a couple of days, the eggshells were gone and the liquid was clear. I think I made a solution and a reaction. Explain why Grace thinks she made a reaction.||A reaction was indicated by the bubbles of gas (a new material) being produced.||She did make a reaction because she saw bubbles. | correct |
Grace set up a science experiment. Here's what she wrote in her notebook. First I put eggshells into a cup and covered them with vinegar. After a while, small bubbles appeared on the surface of the eggshells. The next day there were more bubbles. In a couple of days, the eggshells were gone and the liquid was clear. I think I made a solution and a reaction. Explain why Grace thinks she made a reaction.||A reaction was indicated by the bubbles of gas (a new material) being produced.||Because it bubbled. | correct |
Grace set up a science experiment. Here's what she wrote in her notebook. First I put eggshells into a cup and covered them with vinegar. After a while, small bubbles appeared on the surface of the eggshells. The next day there were more bubbles. In a couple of days, the eggshells were gone and the liquid was clear. I think I made a solution and a reaction. Explain why Grace thinks she made a reaction.||A reaction was indicated by the bubbles of gas (a new material) being produced.||Because it was gone. | irrelevant |
Grace set up a science experiment. Here's what she wrote in her notebook. First I put eggshells into a cup and covered them with vinegar. After a while, small bubbles appeared on the surface of the eggshells. The next day there were more bubbles. In a couple of days, the eggshells were gone and the liquid was clear. I think I made a solution and a reaction. Explain why Grace thinks she made a reaction.||A reaction was indicated by the bubbles of gas (a new material) being produced.||Because it had bubbles appearing. | correct |
Grace set up a science experiment. Here's what she wrote in her notebook. First I put eggshells into a cup and covered them with vinegar. After a while, small bubbles appeared on the surface of the eggshells. The next day there were more bubbles. In a couple of days, the eggshells were gone and the liquid was clear. I think I made a solution and a reaction. Explain why Grace thinks she made a reaction.||A reaction was indicated by the bubbles of gas (a new material) being produced.||It bubbled that is why. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It will happen because it is a parallel circuit not a series. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||This will happen because the other 2 bulbs will have a its own pathway, and it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because I think it is a series and series have to share and takes more power to form it. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because there is only one D-Cell so 3 bulbs will definitely not work worse. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because the bulb does not have its own path of electricity to flow. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It happens because the 2 bulbs in the middle are connected together and they both are hooked to the wires. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because the bulbs are in parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It happens because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because the electricity is still going around the other 2 bulbs. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It stays lit. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because just because one burns out does not mean the rest will and electricity can still flow. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because they each have their own circuit. | partially_correct_incomplete |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because this is a series circuit. A series circuit means that if one bulb burns out they all do. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||They will stay on because it is in a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||The reason is that the bulbs are in a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That happens because it is a parallel circuit which means it should run as long as you do not open the parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It happens because if it is a cut off where I marked it they would still light. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Why, because it is a parallel circuit, and if one burns out they all burn out they all stay on. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||It happens because that string of lights is a parallel string of lights. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||This happens because when a parallel circuit is formed like this one the D-cell still allows the electricity to flow through the circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a cinematic circuit. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||The bulbs are connecting to the same circuit. It will not work. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||The magnetic force will still go through. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because electricity still goes through the wires to the others. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a parallel circuit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||That means it is a parallel circuit and if 2 bulbs burn out one will still be lit. | correct |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because then it will not have a way to go. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||The bulb share the same D-Cell. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||The electricity will still flow through the wires to get to the other lights. | irrelevant |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||If the 2 bulbs in the middle burns out the one on top will. | contradictory |
Look at the schematic diagram including a D-cell battery and 3 bulbs. Why do the other 2 bulbs stay lit if the middle bulb burns out?||The circuit is parallel, so each bulb has its own pathway to the D-cell battery, so the bulbs that do not burn out continue to shine.||Because it is a parallel circuit. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40, Because between each is 20 and if you times 20 twice you will get 40. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40, C is next to B so you add 20 meters to the elevation contour line band A. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, The contour interval is 20 meters. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||225, You keep adding 75. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||Because it is the its spread apart. | irrelevant |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||60 meters, Because it said the change in elevation from line A to B is 20 meters so that lets me know to count by 20 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40, Because it is 20 thought A to B and B to C. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||283 meters, Because A is higher. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||45, Because you can tell by the lines. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||25 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30 meters, I measured with my fingers that C was half of B, and since B is 20 and half of that is 10 I added both of them together and got 30 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||360, big the line of the A, B, C, D. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||C, Because it said the change in elevation for A and B was 20 meters and since it 20 they might be counting by 20's so that is my answer. | partially_correct_incomplete |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40, because if it is like then to get to C just add another 20 meters. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30, well because if A and B equals 20 meters and B true C looked like 10 more meters and I think is 30 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30, I know because A and B is 20 meters and B to C is about 10 meters and it is almost close together. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30, because if you could change A on B so you A and C. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, now I know is if A to B is 20 meters than A to C is 40 because you add another. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||A, they are closer to each other. | irrelevant |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, Because the contour numbers or lines are counting by 20 meters. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||60 meters, you are just doubling it. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||60 meters, I labeled them. I also knew C is the third letter in the alphabet so I counted by 20 3 times. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30 meters, Because if you look at A and then C. C get a lower amount by subtracting. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, I know this because A to B is 20 meters and the next contour line is another 20 meters away it must be 40 meters. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||Feet, because it has a great space between. | irrelevant |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, I know this because the contour interval is 20 meters. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, each line goes up 20 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, It is counting by 20's, 0, 20, 40, 60. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, It is on an accurate scale. | partially_correct_incomplete |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||30, I halved what A and B was. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, I know this because contour intervals do not change and 20 plus 20 equals 40. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||50 meters, It is double the length of B plus 10 meters. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||23 meters, I know because all you do is draw a line to line C. | contradictory |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, I know because the distance between contour lines do not change. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40, I know because the distance between every line is 20, since 20 plus 20 equals 40. | correct |
The change in elevation between contour line A and contour line B is 20 meters. What is the change in elevation between contour line A and contour line C? How do you know that is the change in elevation between A and C?||40 meters. The change in elevation is 20 meters between A and B and 20 meters between B and C. So the change between A and C is 40 meters. 20 m plus 20 m equals 40 m.||40 meters, I know because the contour line is 20. So since A and B is 20 add 20 more. | correct |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the baby seed. | correct |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protect the plant. | contradictory |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protect skin. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the cotyledon. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||The seed coat hold the seed. | irrelevant |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||The seed coat is for protection. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protects the seedlings. | contradictory |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||It is what covers the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect it. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||The seed coat helps keep the seed safe like our skin. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Outer layer protecting the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the seed when it is growing. | contradictory |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Cover. | irrelevant |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||To protect the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||It protects cotyledon and embryo. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protects the cotyledon and embryo. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protect the baby plant. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protects the embryo. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protects the seed. | partially_correct_incomplete |
Look at the picture of the bean seedling shortly after germination. Describe the function of each of the parts: seed coat.||The seed coat protects the seed until the plant begins to grow.||Protect the seed. | partially_correct_incomplete |
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