Explanation Given: The mass of the block A is m A = 15 kg . The mass of the block B is m B = 10 kg . The initial velocity of the block B is ( v B ) 1 = 15 m/s (just before the impact). The stiffness of the spring is k = 10 kN/m . Initially the block A is at rest. After impact the blocks coupled together. Write the principle of conservation of linear momentum. ∑ m v 1 = ∑ m v 2 (I) Here, m is the mass, v is the velocity and the suffixes 1 , 2 indicates the initial and final stages. Write the principle of conservation energy. T 1 + V 1 = T 2 + V 2 (II) Here, T 1 , T 2 is the initial and final kinetic energy and V 1 , V 2 is the initial and final potential energy. Write the formula for kinetic energy. T = 1 2 m A v A 2 + 1 2 m B v B 2 (III) Here, the blocks A and B are at the datum only. Hence the gravitation potential energy V g = 0 and the total potential energy ( V ) is equal to the elastic potential energy ( V e ) . V = V e Write the formula for elastic potential energy. V = V e = 1 2 k s 2 (IV) Here, k is the stiffness of the spring and s is the change in length of the spring. Conclusion: According to law conservation of linear momentum: At Initial: (just before impact) Calculate the initial momentum. ∑ m v 1 = m A ( v A ) 1 + m B ( v B ) 1 When the block A is at rest, the velocity of the block is zero. Substitute 15 kg for m A , 10 kg for m B , 0 for ( v A ) 1 and 15 m/s for ( v B ) 1 . ∑ m v 1 = ( 15 kg ) ( 0 ) + ( 10 kg ) ( 15 m/s ) = 0 + 150 = 150 N ⋅ s After impact the blocks A and B coupled together and they move with the same velocity of ( v 2 ) . Calculate the final momentum. ∑ m v 2 = ( m A + m B ) v 2 Substitute 15 kg for m A , 10 kg for m B . ∑ m v 2 = ( 15 kg + 10 kg ) v 2 = 25 v 2 Calculate the velocity of the block A and block B after impact

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Author: HIBBELER

Publisher: PEARSON

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Chapter 15, Problem 11FP

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