To determine The angular velocity of the link AB . The velocity of collar B . Explanation Write the expression for the angular velocity of the link AB . ω A B = v A r (I) Here, angular velocity of the link AB is ω A B , velocity of point A on the link AB is v A and distance between the points O and A is r . Write the expression for the velocity of collar B . v B = ω A B ( O B ¯ ) (II) Here, velocity of collar B is v B and distance between the points O and B is O B ¯ . Write the expression for the velocity of point A of the link AB . v A = ω 0 r Here, angular velocity of the disk is ω 0 . Conclusion: Show the schematic diagram of the system as in Figure (1). From Figure (1), consider the triangle Δ O A B and apply sine rule. sin 45 ° 2 r = sin β r 1 sin β = 2.828 sin β = 0.3536 β = sin − 1 ( 0.3536 ) = 20.7 ° Here, angle of inclination of the link AB with respect to horizontal is β . From Figure (1), calculate the angle γ . γ + β + 45 ° = 180 ° γ = 135 ° − β Substitute 20

8th Edition

ISBN: 9781118885840

Author: James L. Meriam, L. G. Kraige, J. N. Bolton

Publisher: WILEY

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Chapter 5.5, Problem 108P

To determine

The angular velocity of the link AB.

The velocity of collar B.

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Chapter 5.5, Problem 107P

Chapter 5.5, Problem 109P

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Chapter 5 Solutions

Engineering Mechanics: Dynamics

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The angular velocity of the link AB . The velocity of collar B .

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The angular velocity of the link AB. The velocity of collar B.

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Chapter 5 Solutions

The angular velocity of the link AB.

The velocity of collar B.