kg and radius R = 0.810 m can A uniform spherical shell of mass M = rotate about a vertical axis on frictionless bearings (see the figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia I = 0.120 kg-m2 and radiusr = 0.120 m, and is attached to a small object of mass m = 4.60 kg. There is no friction on the pulley's axle; the cord does not slip on the pulley. What is the speed of the object when it has fallen a distance 0.962 m after being released from rest? Use energy considerations. %3D М, R I, r
kg and radius R = 0.810 m can A uniform spherical shell of mass M = rotate about a vertical axis on frictionless bearings (see the figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia I = 0.120 kg-m2 and radiusr = 0.120 m, and is attached to a small object of mass m = 4.60 kg. There is no friction on the pulley's axle; the cord does not slip on the pulley. What is the speed of the object when it has fallen a distance 0.962 m after being released from rest? Use energy considerations. %3D М, R I, r
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 49PQ: A turntable (disk) of radius r = 26.0 cm and rotational inertia0.400 kg m2 rotates with an angular...
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Transcribed Image Text:A uniform spherical shell of mass M = 11.0 kg and radius R = 0.810 m can
rotate about a vertical axis on frictionless bearings (see the figure). A
massless cord passes around the equator of the shell, over a pulley of
rotational inertia I = 0.120 kg-m2 and radius r = 0.120 m, and is attached
to a small object of mass m = 4.60 kg. There is no friction on the pulley's
axle; the cord does not slip on the pulley. What is the speed of the object
when it has fallen a distance 0.962 m after being released from rest? Use
energy considerations.
%3D
М, R
I,r
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