Tennis balls are tested by being dropped from a height of 2.5 m onto a concrete floor. The 57 g ball hits the ground, compresses, then rebounds. A ball will be accepted for play if it rebounds to a height of about 1.4 m; it will be rejected if the bounce height is much more or much less than this. Suppose a ball is dropped from 2.5 m and rebounds to 1.4 m.a. How fast is the ball moving just before it hits the floor?b. What is the ball’s speed just after leaving the floor?c. What happens to the “lost” energy?d. If the time of the collision with the floor is 6.0 ms, what is the average force on the ball during the impact? The following passages and associated questions are based on the
Tennis balls are tested by being dropped from a height of 2.5 m onto a concrete floor. The 57 g ball hits the ground, compresses, then rebounds. A ball will be accepted for play if it rebounds to a height of about 1.4 m; it will be rejected if the bounce height is much more or much less than this. Suppose a ball is dropped from 2.5 m and rebounds to 1.4 m.a. How fast is the ball moving just before it hits the floor?b. What is the ball’s speed just after leaving the floor?c. What happens to the “lost” energy?d. If the time of the collision with the floor is 6.0 ms, what is the average force on the ball during the impact? The following passages and associated questions are based on the
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter10: Systems Of Particles And Conservation Of Momentum
Section: Chapter Questions
Problem 49PQ
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Tennis balls are tested by being dropped from a height of 2.5 m onto a concrete floor. The 57 g ball hits the ground, compresses, then rebounds. A ball will be accepted for play if it rebounds to a height of about 1.4 m; it will be rejected if the bounce height is much more or much less than this.
Suppose a ball is dropped from 2.5 m and rebounds to 1.4 m.
a. How fast is the ball moving just before it hits the floor?
b. What is the ball’s speed just after leaving the floor?
c. What happens to the “lost” energy?
d. If the time of the collision with the floor is 6.0 ms, what is the average force on the ball during the impact? The following passages and associated questions are based on the
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