To determine The angular velocity of the slender bar AB . The angular acceleration of the slender bar AB . Explanation Write the expression for the acceleration of roller B with respect to roller A . a B / A = ( a B / A ) t 2 + ( a B / A ) n 2 (I) Here, acceleration of roller B with respect to roller A is a B / A , tangential acceleration of roller B with respect to roller A is ( a B / A ) t and normal acceleration of roller B with respect to roller A is ( a B / A ) n . Write the expression for the tangential acceleration of roller B with respect to roller A . ( a B / A ) t = L α Here, angular acceleration of the slender bar is α and length of the slender bar is L . Conclusion: Show the schematic diagram of the system indicating the instantaneous center as in Figure (1). Since the instantaneous center is at infinity for the slender bar AB , the angular velocity of the slender bar AB just after roller B passing the point C will be zero. ω A B = 0 Hence, the angular velocity of the slender bar AB is 0 _

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ISBN: 9781118885840

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

Publisher: WILEY

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Chapter 5.6, Problem 124P

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The angular velocity of the slender bar AB.

The angular acceleration of the slender bar AB.

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Chapter 5.6, Problem 123P

Chapter 5.6, Problem 125P

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Engineering Mechanics: Dynamics

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The angular velocity of the slender bar AB . The angular acceleration of the slender bar AB .

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The angular velocity of the slender bar AB. The angular acceleration of the slender bar AB.

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Chapter 5 Solutions

The angular velocity of the slender bar AB.

The angular acceleration of the slender bar AB.