A spring with spring constant 20 N/m is compressed a distance of 6.0 cm by a ball with a mass of 215.5 g (see figure below). The ball is then released and rolls without slipping along a horizontal surface, leaving the spring at point A. The process is repeated, using a block instead, with a mass identical to that of the ball. The block compresses the spring by 6.0 cm and is also released, leaving the spring at point A. Assume the ball rolls, but ignore other effects of friction. (Assume that the ball is a solid ball.) B A (a) What is the speed of the ball at point B? m/s (b) What is the speed of the block at point B? m/s
A spring with spring constant 20 N/m is compressed a distance of 6.0 cm by a ball with a mass of 215.5 g (see figure below). The ball is then released and rolls without slipping along a horizontal surface, leaving the spring at point A. The process is repeated, using a block instead, with a mass identical to that of the ball. The block compresses the spring by 6.0 cm and is also released, leaving the spring at point A. Assume the ball rolls, but ignore other effects of friction. (Assume that the ball is a solid ball.) B A (a) What is the speed of the ball at point B? m/s (b) What is the speed of the block at point B? m/s
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Chapter9: Linear Momentum And Collisions
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Transcribed Image Text:A spring with spring constant 20 N/m is compressed a distance of 6.0 cm by a ball with a mass of 215.5 g (see figure
below). The ball is then released and rolls without slipping along a horizontal surface, leaving the spring at point A. The
process is repeated, using a block instead, with a mass identical to that of the ball. The block compresses the spring by
6.0 cm and is also released, leaving the spring at point A. Assume the ball rolls, but ignore other effects of friction.
(Assume that the ball is a solid ball.)
B
(a) What is the speed of the ball at point B?
m/s
(b) What is the speed of the block at point B?
m/s
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