Ball 1 is moving toward you at 10 m/s, and you decide to throw ball 2 at it to make it reverse its velocity. The balls collide head-on, and the coefficient of restitution for the collision is 0.90. (a) If ball 1 has an inertia of 0.500 kg and ball 2 has an inertia of 0.600 kg, how fast must ball 2 be traveling in order to reverse the velocity of ball 1? (b) What is the initial relative velocity of the two balls? (c) What
Ball 1 is moving toward you at 10 m/s, and you decide to throw ball 2 at it to make it reverse its velocity. The balls collide head-on, and the coefficient of restitution for the collision is 0.90. (a) If ball 1 has an inertia of 0.500 kg and ball 2 has an inertia of 0.600 kg, how fast must ball 2 be traveling in order to reverse the velocity of ball 1? (b) What is the initial relative velocity of the two balls? (c) What
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter9: Dynamics Of A System Of Particles
Section: Chapter Questions
Problem 9.32P
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Ball 1 is moving toward you at 10 m/s, and you decide to throw ball 2 at it to make it reverse its velocity. The balls collide head-on, and the coefficient of restitution for the collision is 0.90. (a) If ball 1 has an inertia of 0.500 kg and ball 2 has an inertia of 0.600 kg, how fast must ball 2 be traveling in order to reverse the velocity of ball 1? (b) What is the initial relative velocity of the two balls? (c) What is their reduced inertia? (d) What percentage of the original kinetic energy is convertible? (e) What are the velocities of the two balls immediately after the collision?
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