A person of mass m = 75 kg stands in the center of a large rotating disk with radius R = 5.0 mand total mass M. The rotates without friction and without any external torque, initially atan angular velocity of w. The moment of inertia of a disk is MR. Assume that the personcan be approximated as point-like, i.e. the angular momentum is r x p. The person thenwalks radially outward.(a) What is the angular momentum of the system (person + disk) as a function of theperson's radius, r, from the center? Write it in terms of m, M, R, and w.(b) If the disk is initially rotating at woand it slows to wp =0.8 rad/s when the person is at the very edge, what is the mass ofthe disk?1.1 rad/s when the person is in the exact center,(c) What is the rotational kinetic energy of the system before and after the person walks tothe edge?

Given that: Mass of the person, m=75 kg Radius of the disk, R= 5 m Mass of the disk= M Initial…

A person of mass m = 75 kg stands in the center of a large rotating disk with radius R= 5.0 m and total mass M. The rotates without friction and without any external torque, initially at an angular velocity of w. The moment of inertia of a disk is MR. Assume that the can be approximated as point-like, i.e. the angular momentum is r x p. The person then walks radially outward. person (a) What is the angular momentum of the system (person + disk) as a function of the person's radius, r, from the center? Write it in terms of m, M, R, and w. (b) If the disk is initially rotating at wo and it slows to wf = 0.8 rad/s when the person is at the very edge, what is the mass of the disk? 1.1 rad/s when the person is in the exact center, %3D (c) What is the rotational kinetic energy of the system before and after the person walks to the edge?

A person of mass m = 75 kg stands in the center of a large rotating disk with radius R= 5.0 m and total mass M. The rotates without friction and without any external torque, initially at an angular velocity of w. The moment of inertia of a disk is MR. Assume that the can be approximated as point-like, i.e. the angular momentum is r x p. The person then walks radially outward. person (a) What is the angular momentum of the system (person + disk) as a function of the person's radius, r, from the center? Write it in terms of m, M, R, and w. (b) If the disk is initially rotating at wo and it slows to wf = 0.8 rad/s when the person is at the very edge, what is the mass of the disk? 1.1 rad/s when the person is in the exact center, %3D (c) What is the rotational kinetic energy of the system before and after the person walks to the edge?

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter13: Rotation Ii: A Conservation Approach

Section: Chapter Questions

Problem 73PQ: A uniform disk of mass m = 10.0 kg and radius r = 34.0 cm mounted on a frictionlessaxle through its...

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