7. A 5.00-kg solid ball of radius 0.250 meters is pressed back against a spring having a spring constant of 1625 N/m, compressing the spring by 20.0 cm. The solid ball is released, and the object rolls 1.00 meter on a frictionless horizontal surface (without slipping) and then rolls up a rough 3.00 meter long incline plane (with an angle of 10.0 degrees to the horizontal). The ball eventually comes to rest at the top of the incline plane. When the ball rolls down the incline plane and compresses the spring, how much will the ball compress the spring? 3.00 m 1.00 m

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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7. A 5.00-kg solid ball of radius 0.250 meters is pressed back against a spring having a spring constant
of 1625 N/m, compressing the spring by 20.0 cm. The solid ball is released, and the object rolls
1.00 meter on a frictionless horizontal surface (without slipping) and then rolls up a rough 3.00
meter long incline plane (with an angle of 10.0 degrees to the horizontal). The ball eventually comes
to rest at the top of the incline plane. When the ball rolls down the incline plane and compresses
the spring, how much will the ball compress the spring?
3.00 m
1.00 m
Transcribed Image Text:7. A 5.00-kg solid ball of radius 0.250 meters is pressed back against a spring having a spring constant of 1625 N/m, compressing the spring by 20.0 cm. The solid ball is released, and the object rolls 1.00 meter on a frictionless horizontal surface (without slipping) and then rolls up a rough 3.00 meter long incline plane (with an angle of 10.0 degrees to the horizontal). The ball eventually comes to rest at the top of the incline plane. When the ball rolls down the incline plane and compresses the spring, how much will the ball compress the spring? 3.00 m 1.00 m
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