A large turntable with radius 6.00 m rotates about a foced vertical ais, making one revolution in 8.00 s. The moment of inertia of the turntable about this axis is 1200 kg - m. You stand, barefooted, at the rim of the tumtable and very slowty walk toward the center, along a radial line painted on the surface of the turntable. Your mass is 71.0 kg. Since the radius of the turntable is large, it is a good approximation to treat yourself as a point mass. Assume that you can maintain your balance by adjusting the positions of your feet You find that you can reach a point 3.00 m from the center of the turntable before your feet begin to slip. Part A What is the coeficient of static friction between the bottoms of your feet and the surface of the turntable? ? Submit Request Answer Provide Feedback

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A large turntable with radius 6.00 m rotates about a fixed vertical axis, making one revolution in
8.00 s. The moment of inertia of the turntable about this axis is 1200 kg · m2. You stand, barefooted,
at the rim of the turntable and very slowly walk toward the center, along a radial line painted on the
surface of the turntable. Your mass is 71.0 kg. Since the radius of the turntable is large, it is a good
approximation to treat yourself as a point mass. Assume that you can maintain your balance by
adjusting the positions of your feet. You find that you can reach a point 3.00 m from the center of the
turntable before your feet begin to slip.
Part A
What is the coefficient of static friction between the bottoms of your feet and the surface of the turntable?
?
Hs =
Submit
Request Answer
Provide Feedback
Transcribed Image Text:A large turntable with radius 6.00 m rotates about a fixed vertical axis, making one revolution in 8.00 s. The moment of inertia of the turntable about this axis is 1200 kg · m2. You stand, barefooted, at the rim of the turntable and very slowly walk toward the center, along a radial line painted on the surface of the turntable. Your mass is 71.0 kg. Since the radius of the turntable is large, it is a good approximation to treat yourself as a point mass. Assume that you can maintain your balance by adjusting the positions of your feet. You find that you can reach a point 3.00 m from the center of the turntable before your feet begin to slip. Part A What is the coefficient of static friction between the bottoms of your feet and the surface of the turntable? ? Hs = Submit Request Answer Provide Feedback
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