Explanation Given: The mass of the cylinder is 20 kg . Initially the cylinder is at rest h = 0 . The stiffness of the spring is k . The unstretched length of the spring is s 0 = 1 m . Draw the free body diagram of cylinder as shown in Figure (1). Write the formula for kinetic energy ( T ) . T = 1 2 m v 2 (I) Here, m is the mass and v is the velocity. Refer Figure (1). Write the formula for elastic potential energy ( V e ) . V e = 1 2 k ( s 1 − s 0 ) 2 (II) Here, k is the stiffness of the spring and s 1 , s 0 is the final and initial displacement. Write the formula for gravitational potential energy ( V g ) . V g = m g h (III) Here, m is the mass of the cylinder, g is the acceleration due to gravity and s is the displacement. Write the formula total potential energy ( V ) . V = V g + V e (IV) Here, V g is gravitational potential energy and V e is elastic potential energy. Write the formula for conservation of energy. T 1 + V 1 = T 2 + V 2 (V) Here, T 1 , T 2 are the initial and final kinetic energy and V 1 , V 2 are the initial and final potential energy. Conclusion: At Initial: Calculate the initial kinetic energy and potential energy of the cylinder. The cylinder is at rest ( h = 0 ) . The kinetic energy of the cylinder is T 1 = 0 . When the unstretched length of the spring is s 0 = 1 m . At rest, The gravitational potential energy of the cylinder is V g = 0 . Calculate the elastic potential energy ( V e ) at rest. Substitute 2 m for s 1 and 1 m for s 0 in Equation (II) V e = 2 1 2 ( k ) ( 2 m − 1 m ) 2 = k ( 1 ) = k Calculate the total potential energy ( V 1 ) . Substitute V 1 for V , k for V e and 0 for V g in Equation (IV). V 1 = 0 + k = k At Final: Calculate the final kinetic energy

Engineering Mechanics: Dynamics Study (Book and Pearson eText)

14th Edition

ISBN: 9780134116990

Author: Russell C. Hibbeler

Publisher: PEARSON

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Chapter 14.5, Problem 96P

To determine

The stiffness of the spring when h=0.5 m .

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Chapter 14.5, Problem 95P

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Chapter 14 Solutions

Engineering Mechanics: Dynamics Study (Book and Pearson eText)

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The stiffness of the spring when h = 0.5 m .

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Chapter 14 Solutions