Explanation Show the free body diagram of the hockey pucks as in Figure (1). Express the velocity of hockey puck A in y direction before impact. v A y = v A sin 30 ° (I) Here, the velocity of hockey puck A is v A . Express the velocity of hockey puck A in y direction after impact. v A y ' = v A sin 30 ° (II) Express the velocity of A and B after impact using conservation of linear momentum. m A v A + m B v B x = m A v A x ' + m B v B x ' v A cos 30 ° + v B x = v A x ' + v B x ' (III) Here, mass of the puck A and B is m A and m B respectively, velocity of m A and m B before impact is v A x and v B x respectively, and velocity of m A and m B after impact is v A x ' and v B x ' respectively. Apply the coefficient of restitution to the velocities. e = v B x ' − v A x ' v A x − v B x (IV) Express the magnitude for velocity of A after impact. v A ' = ( v A x ' ) 2 + ( v A y ' ) 2 (V) Express the direction for velocity of A after impact. θ A = tan − 1 v A y ' v A x ' (VI) Express the magnitude for velocity of B after impact. v B ' = ( v B x ' ) 2 + ( v B y ' ) 2 (VII) Express the direction for velocity of B after impact. θ B = tan − 1 v B y ' v B x ' (VIII) Express the kinetic energy of the system before impact. T 1 = 1 2 m ( v A 2 + v B 2 ) (IX) Express the kinetic energy of the system after impact. T 2 = 1 2 m ( v A ' 2 + v B ' 2 ) (X) Express the percentage loss of system kinetic energy. n = T 1 − T 2 T 1 × 100 (XI) Conclusion: Substitute 10 m / s for v A in Equation (I). v A y = 10 sin 30 ° = 5 m / s Substitute 10 m / s for v A in Equation (II). v A y ' = 10 sin 30 ° = 5 m / s Substitute 10 m / s for v A and 0 for v B x in Equation (III). 10 cos 30 ° + 0 = v A x ' + v B x ' v A x ' + v B x ' = 8.66 Substitute 0.75 for e , 10 cos 30 ° for v A x and 0 for v B x in Equation (IV)

8th Edition

ISBN: 9781118885840

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

Publisher: WILEY

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Chapter 3.12, Problem 261P

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Determine the magnitude and direction of velocity for puck A after impact and the magnitude and direction of velocity for puck B after impact and also the percentage loss of system kinetic energy.

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Chapter 3.12, Problem 260P

Chapter 3.12, Problem 262P

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