A 440g beanbag slides up a cornhole board (if you’ve never played cornhole before, the board is basically a ramp). The board is tilted 10.◦ from the hori- zontal. The beanbag initially is moving with a speed of 1.21 m/s directly up the ramp. It stops at a displacement 0.35m from where it was initially, and then slides back down 1. How does the magnitude of the acceleration of the bean bag on the way up compare to the acceleration of the beanbag on the way down? Explain your reasoning. 2. What is the coefficient of friction between the bean bag and the ramp? 3. What is the bean bag’s speed when it reaches its initial starting point on its way down?
A 440g beanbag slides up a cornhole board (if you’ve never played cornhole before, the board is basically a ramp). The board is tilted 10.◦ from the hori- zontal. The beanbag initially is moving with a speed of 1.21 m/s directly up the ramp. It stops at a displacement 0.35m from where it was initially, and then slides back down 1. How does the magnitude of the acceleration of the bean bag on the way up compare to the acceleration of the beanbag on the way down? Explain your reasoning. 2. What is the coefficient of friction between the bean bag and the ramp? 3. What is the bean bag’s speed when it reaches its initial starting point on its way down?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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A 440g beanbag slides up a cornhole board (if you’ve never played cornhole before, the board is basically a ramp). The board is tilted 10.◦ from the hori- zontal. The beanbag initially is moving with a speed of 1.21 m/s directly up the ramp. It stops at a displacement 0.35m from where it was initially, and then slides back down
1. How does the magnitude of the acceleration of the bean bag on the way
up compare to the acceleration of the beanbag on the way down? Explain
your reasoning.
2. What is the coefficient of friction between the bean bag and the ramp?
3. What is the bean bag’s speed when it reaches its initial starting point on
its way down?
up compare to the acceleration of the beanbag on the way down? Explain
your reasoning.
2. What is the coefficient of friction between the bean bag and the ramp?
3. What is the bean bag’s speed when it reaches its initial starting point on
its way down?
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