This section is a simple warm-up prediction. It is not important that you get this prediction right; it is important that you think about i and commit to an answer before continuing with the rest of the lab. After you submit your answers, these questions will be graded by instructor or TA. Your score will be updated after the grading occurs. The questions are NOT automatically, graded. 1. 3 = 0 vi 2m m Consider the situation shown above which occurs on a frictionless surface. The block of mass m is traveling toward a more massive block which is currently at rest. A spring is attached to the second block, meaning the blocks will bounce off each other; they will not stick together. Predict the motion of the blocks after the collision. Select all that apply: | The light block and heavy block will both be traveling to the right. | The light block will bounce backward and be traveling to the left; the heavy block will stay in place | The heavy block will tart moving to the right, the light block will stop in place. The light block will bounce backward and be traveling to the left; the heavy block will be traveling to the right. Score: 0/1 2. Briefly explain your reasoning for the above question. Why did you choose the answer you chose? BIU E E E E O f. Score: 0/1 3. If the masses were reversed (so that the initially moving object is heavier than the object at rest), Would your answer to the first question in this section change? Explain why or why not. BIU EEEE O O

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Chapter1: Units, Trigonometry. And Vectors
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v Warm-up
This section is a simple warm-up prediction. It is not important that you get this prediction right; it is important that you think about it
and commit to an answer before continuing with the rest of the lab.
After you submit your answers, these questions will be graded by instructor or TA. Your score will be updated after the grading
occurs. The questions are NOT automatically graded.
1.
3 = 0
Vi
2m
m
00000
Consider the situation shown above which occurs on a frictionless surface. The block of mass m is traveling toward a more
massive block which is currently at rest. A spring is attached to the second block, meaning the blocks will bounce off each other;
they will not stick together.
Predict the motion of the blocks after the collision.
Select all that apply:
| The light block and heavy block will both be traveling to the right.
The light block will bounce backward and be traveling to the left; the heavy block will stay in place
The heavy block will start moving to the right, the light block will stop in place.
| The light block will bounce backward and be traveling to the left; the heavy block will be traveling to the right.
Score: 0/1
2. Briefly explain your reasoning for the above question. Why did you choose the answer you chose?
BI U
Score: 0/1
3. If the masses were reversed (so that the initially moving object is heavier than the object at rest), Would your answer to the first
question in this section change? Explain why or why not.
в I U
E = E E
Transcribed Image Text:v Warm-up This section is a simple warm-up prediction. It is not important that you get this prediction right; it is important that you think about it and commit to an answer before continuing with the rest of the lab. After you submit your answers, these questions will be graded by instructor or TA. Your score will be updated after the grading occurs. The questions are NOT automatically graded. 1. 3 = 0 Vi 2m m 00000 Consider the situation shown above which occurs on a frictionless surface. The block of mass m is traveling toward a more massive block which is currently at rest. A spring is attached to the second block, meaning the blocks will bounce off each other; they will not stick together. Predict the motion of the blocks after the collision. Select all that apply: | The light block and heavy block will both be traveling to the right. The light block will bounce backward and be traveling to the left; the heavy block will stay in place The heavy block will start moving to the right, the light block will stop in place. | The light block will bounce backward and be traveling to the left; the heavy block will be traveling to the right. Score: 0/1 2. Briefly explain your reasoning for the above question. Why did you choose the answer you chose? BI U Score: 0/1 3. If the masses were reversed (so that the initially moving object is heavier than the object at rest), Would your answer to the first question in this section change? Explain why or why not. в I U E = E E
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