A single mass m =1.6 kg hangs from a pulley as shown in the figure. Themoment of inertia through the axis of rotation passing through the center of thepulley is I = 2 kg m2. The rope holding the mass is attached to the pulley at aradius R = 0.5 m from the center of the pulley.RTmFind the magnitude of the tension T in the rope.Pick the correct answer19.6 N-13.1 N13.1 N-19.6 N11.2 N

Answered: Image /qna-images/answer/bf4a952c-0f21-4ea9-91fa-c5fbb070d42e.jpg

A single mass m = 1.6 kg hangs from a pulley as shown in the figure. The moment of inertia through the axis of rotation passing through the center of the pulley is I = 2 kg m². The rope holding the mass is attached to the pulley at a radius R = 0.5 m from the center of the pulley. R T Find the magnitude of the tension T in the rope. Pick the correct answer 19.6 N -13.1 N 13.1 N -19.6 N 11.2 N

A single mass m = 1.6 kg hangs from a pulley as shown in the figure. The moment of inertia through the axis of rotation passing through the center of the pulley is I = 2 kg m². The rope holding the mass is attached to the pulley at a radius R = 0.5 m from the center of the pulley. R T Find the magnitude of the tension T in the rope. Pick the correct answer 19.6 N -13.1 N 13.1 N -19.6 N 11.2 N

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter12: Rotation I: Kinematics And Dynamics

Section: Chapter Questions

Problem 35PQ: In testing an automobile tire for proper alignment, a technicianmarks a spot on the tire 0.200 m...

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