Explanation Given: The mass of the follower is m = 0.5 kg . The radius of the cam is r = 0.15 m . The z coordinate of the cam is z = ( 0.02 cos 2 θ ) m . The spring is uncompressed when θ = 90 ° . The angular velocity of the cam is θ ˙ = 30 rad/s . The stiffness of the spring is k = 1000 N/m . Draw the free body diagram of the follower as shown Figure 1. Write the formula for spring force ( F s p ) . F s p = k x (I) Here, k is the stiffness of the spring and x is the deformation of the spring. Refer Figure (1). Write the formula for Newton’s second law of motion along z − a x i s . ∑ F z = m a z (II) Here, m is the mass of the crate, a z is the acceleration of the follower along z − a x i s and ∑ F z is the resultant of all the forces acting on the crate along z − a x i s . Conclusion: Write the given coordinate equation of z . z = 0.02 cos 2 θ (III) Use the chain rule to determine the first and second derivatives of z . First derivative of z gives the velocity of the follower : Differentiate the Equation (III) with respect to time. z ˙ = 0.02 [ − sin 2 θ ( 2 θ ˙ ) ] = ( − 0.04 θ ˙ sin 2 θ ) m/s (IV) Second derivative of z gives acceleration of the follower : Differentiate the Equation (IV) with respect to time. z ¨ = − 0.04 [ cos 2 θ ( 2 θ ˙ ) θ ˙ + ( sin 2 θ ) θ ¨ ] = − 0.04 [ 2 ( θ ˙ ) 2 cos 2 θ + θ ¨ sin 2 θ ] When θ ˙ = 30 rad/s and θ ¨ = 0 . Substitute 30 rad/s for θ ˙ and 0 for θ ¨ . z ¨ = − 0.04 [ 2 ( 30 rad/s ) 2 cos 2 θ + ( 0 ) sin 2 θ ] = ( − 72 cos 2 θ ) m/s 2 (V) When the cam has the angular displacement of θ = 30 ° . Substitute 30 ° for θ in Equation (V). z ¨ = [ − 72 cos 2 ( 30 ° ) ] m/s 2 = − 72 ( 0

Engineering Mechanics: Dynamics (14th Edition)

14th Edition

ISBN: 9780133915389

Author: Russell C. Hibbeler

Publisher: PEARSON

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Chapter 13.6, Problem 96P

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The force component Fz at the end A of the follower when θ=30° .

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Chapter 13.6, Problem 95P

Chapter 13.6, Problem 97P

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Chapter 13 Solutions

Engineering Mechanics: Dynamics (14th Edition)

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The force component F z at the end A of the follower when θ = 30 ° .

Solution Summary: The author analyzes the force component F_z at the end A of the follower when theta =30°.

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The force component Fz at the end A of the follower when θ=30° .

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Chapter 13 Solutions