1. The cord shown below is wrapped around a protruding small cylinder on a larger cylinder. You may use the mass moment of inertia, Ic = 1/mR² where R = 3 ft, for the complete composite cylinder body. The composite cylinder body weighs 130 lbs. It slips on the surface when it is released from rest. Use the acceleration due to gravity, g = 32.2 ft/sec². Find the angular acceleration of the composite cylinder body when it is released from rest. 1 ft 12 3 ft Cord μ = 1/6 у Ľ 1. X Used with permission from "Engineering Mechanics: Dynamics," McGill/King, 4th Ed., 2003 a=0.450 rad/sec² counter-clockwise a = 4.65 rad/sec² counter-clockwise a=1.65 rad/sec² counter-clockwise None of the above

1. The cord shown below is wrapped around a protruding small cylinder on a larger cylinder. You may use the mass moment of inertia, Ic = 1/mR² where R = 3 ft, for the complete composite cylinder body. The composite cylinder body weighs 130 lbs. It slips on the surface when it is released from rest. Use the acceleration due to gravity, g = 32.2 ft/sec². Find the angular acceleration of the composite cylinder body when it is released from rest. 1 ft 12 3 ft Cord μ = 1/6 у Ľ 1. X Used with permission from "Engineering Mechanics: Dynamics," McGill/King, 4th Ed., 2003 a=0.450 rad/sec² counter-clockwise a = 4.65 rad/sec² counter-clockwise a=1.65 rad/sec² counter-clockwise None of the above

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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