Explanation Express the velocity diagram of the spheres after the impact as in Figure (1). Determine the relation between the velocities of the spheres immediately after impact. Consider the momentum conservation for the two particle system in normal direction. m A ( v A ) n + m B ( v B ) n = m A ( v A ' ) n + m B ( v B ' ) n (I) Here, the masses of spheres A and B is m A and m B respectively, the velocities of A and B before in contact is v A and v B respectively and the velocities of A and B after contact is v A ' and v B ' respectively. Conservation of momentum for each sphere in tangential direction. Consider for sphere A . ( v A ) t = ( v A ' ) t (II) Consider for sphere B . ( v B ) t = ( v B ' ) t (III) Express the relation between the velocities of the spheres. Consider the coefficient of restitution. e = ( v B ' ) n − ( v A ' ) n ( v A ) n − ( v B ) n (IV) Here, the coefficient of restitution is e . Express θ A . θ A = θ A ' − θ (V) Here, the angle between the resultant velocities of the sphere with x axis is θ . Express θ B . θ B = θ B ' − θ (VI) Conclusion: Substitute 23 kg for m A , 4 kg for m B , 4 [ 4 5 ] m / s for ( v A ) n , − 12 [ 4 5 ] m / s for ( v B ) n , v A ' cos θ A ' for ( v A ' ) n and v B ' cos θ B ' for ( v B ' ) n in Equation (I). 23 ( v A ) n + 4 ( v B ) n = 23 × 4 [ 4 5 ] − 4 × 12 [ 4 5 ] 23 v A ' cos θ A ' + 4 v B ' cos θ B ' = 35.2 (VII) Substitute 4 [ 3 5 ] m / s for ( v A ) t and v A ' sin θ A ' for ( v A ' ) t in Equation (II)

8th Edition

ISBN: 9781118885840

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

Publisher: WILEY

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Chapter 3.12, Problem 259P

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Determine the velocities of the spheres immediately after impact for A and B and the angles θA and θB with respect to the x axis made by the rebound velocity vectors.

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Chapter 3.12, Problem 258P

Chapter 3.12, Problem 260P

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Determine the velocities of the spheres immediately after impact for A and B and the angles θ A and θ B with respect to the x axis made by the rebound velocity vectors .

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Determine the velocities of the spheres immediately after impact for A and B and the angles θA and θB with respect to the x axis made by the rebound velocity vectors.

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