Problem 2 A man is standing on the platform of a merry-go-round, not holding on to anything. The merry-go- round is turning at a constant rate, and makes a complete turn every 10s. (a) What is the merry-go-round angular velocity? (b) If the man is standing at a distance of 2 m from the center of the merry-go-round, what is his centripetal acceleration? (c) Which actual force acting on the man is responsible for this acceleration? (d) What is the minimum value of μs, the static friction coefficient, between the soles of the man's shoes and the platform? (e) The power is turned off and the platform slows down to a stop with a constant angular acceleration of -0.02 rad/s². How long does it take for it to stop completely? (f) What is the man's tangential acceleration during that time? Does his centripetal acceleration change? Why? (g) How many turns does the platform make before coming to a complete stop?

em 2 A man is standing on the platform of a merry-go-round, not holding on to anything. The merry-go- round is (a) (b) (c) (d) (e) (f) (g) turning at a constant rate, and makes a complete turn every 10 s. What is the merry-go-round angular velocity? If the man is standing at a distance of 2 m from the center of the merry-go-round, what is his centripetal acceleration? Which actual force acting on the man is responsible for this acceleration? What is the minimum value of μs, the static friction coefficient, between the soles of the man’s shoes and the platform? The power is turned off and the platform slows down to a stop with a constant angular acceleration of −0.02rad/s2. How long does it take for it to stop completely? What is the man’s tangential acceleration during that time? Does his centripetal acceleration change? Why? How many turns does the platform make before coming to a complete stop?

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Problem 2 A man is standing on the platform of a merry-go-round, not holding on to anything. The merry-go- round is turning at a constant rate, and makes a complete turn every 10s. (a) What is the merry-go-round angular velocity? (b) If the man is standing at a distance of 2 m from the center of the merry-go-round, what is his centripetal acceleration? (c) Which actual force acting on the man is responsible for this acceleration? (d) What is the minimum value of us, the static friction coefficient, between the soles of the man's shoes and the platform? (e) The power is turned off and the platform slows down to a stop with a constant angular acceleration of -0.02 rad/s². How long does it take for it to stop completely? (f) What is the man's tangential acceleration during that time? Does his centripetal acceleration change? Why? (g) How many turns does the platform make before coming to a complete stop?