For Figure, the equilibrium position corresponds to x = 0. Neglect the masses of the pulleys and

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For Figure, the equilibrium position corresponds to x = 0. Neglect the masses of the pulleys and assume that the cable is inextensible, and use conservation of energy to derive the equation of motion in terms of x.
For Figure, the equilibrium position corresponds to x = 0.
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System Dynamics

ISBN: 978-0073398068

3rd edition

Authors: William Palm III

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