A tennis ball is dropped onto the floor from a height of . It rebounds to a height of . The ball comes in contact with the floor for . The average acceleration during contact is _____ . (Given )
JEE Physics 2023 Question with Solution
Answer
Correct answer:120
Step-by-step solution
Standard Method
Given: The ball is dropped from height , rebounds to height , contact time is , and .
Find: The average acceleration during contact.
First find the velocity just before impact:
With and ,
Now find the velocity just after rebound:
With and ,
The direction of velocity reverses during contact, so the total change in velocity is:
Average acceleration is:
Therefore, the average acceleration is , so the numerical answer is 120.
Common mistakes
Taking the change in velocity as is incorrect because the ball reverses direction on rebounding. Use the magnitudes with direction change accounted for, so .
Using the dropped height or rebound height directly in is wrong because acceleration during contact depends on change in velocity over contact time, not displacement during flight.
Forgetting to compute the two speeds separately can lead to error. First find the speed before impact from , then the speed after rebound from .
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