Explanation Given: The mass of the each disks A and B is m = 0.5 kg . The initial velocity of the disk A is ( v A ) 1 = 6 m/s . The initial velocity of the disk B is ( v B ) 1 = 4 m/s at the slope of 4 3 . The coefficient of the restitution is e = 0.75 . Draw the free body diagram of the disks as shown in Figure (1). 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. Refer Figure (1). Write the formula for coefficient of restitution ( e ) . e = ( v A ) 2 x − ( v B ) 2 x ( v B ) x − ( v A ) x (II) Here, v is the velocity, the suffixes A , B indicates the disks A and B and the suffixes x , y indicates the axes. Conclusion: According law conservation of linear momentum: Consider When the disk A collides with disk B . At Initial: Calculate the initial momentum. (When the disks moving opposite direction to each other, disk B is positive and disk A is negative) The initial momentum is ∑ m v 1 = m B ( v B ) 1 x + m A ( v A ) 1 x From Figure (1). The velocity of the disk B when resolved along x − a x i s is 4 × ( 3 5 ) m/s . Substitute 0.5 kg for m A , m B , − 6 m/s for ( v A ) 1 x and 4 × ( 3 5 ) m/s for ( v B ) 1 x . ∑ m v 1 = ( 0.5 kg ) × 4 × ( 3 5 ) m/s + ( 0.5 kg ) ( − 6 m/s ) = 1.2 − 3 = − 1.8 N ⋅ s At final: Calculate the final momentum. The final momentum is ∑ m v 2 = m A ( v A ) 2 x + m B ( v B ) 2 x Substitute 0.5 kg for m A , m B . ∑ m v 2 = 0.5 kg ( v A ) 2 x + 0.5 kg ( v B ) 2 x = 0.5 ( v A ) 2 x + 0.5 ( v B ) 2 x Calculate the velocity of the disks after collision. Substitute − 1.8 N ⋅ s for ∑ m v 1 and 0.5 ( v A ) 2 x + 0.5 ( v B ) 2 x for ∑ m v 2 in Equation (I). − 1.8 N ⋅ s = 0.5 ( v A ) 2 x + 0.5 ( v B ) 2 x 0.5 ( v A ) 2 x + 0.5 ( v B ) 2 x = − 1.8 (III) Calculate the coefficient of restitution ( e ) . Here, e = 0.75 . Substitute 0.85 for e , − 6 m/s for ( v A ) 1 and 4 × ( 3 5 ) m/s for ( v B ) 1 in Equation (II). 0.75 = ( v A ) 2 x − ( v B ) 2 x [ 4 × ( 3 5 ) m/s ] − ( − 6 m/s ) 0.75 = ( v A ) 2 x − ( v B ) 2 x 8.4 ( v A ) 2 x − ( v B ) 2 x = 0.75 ( 8.4 ) ( v A ) 2 x = 6.3 + ( v B ) 2 x (IV) Calculate the final velocity of the disks A and B

15th Edition

ISBN: 9780137514724

Author: HIBBELER

Publisher: PEARSON

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Chapter 15, Problem 73P

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The velocity of each disks just after the collision and direction of the disk B .

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Chapter 15, Problem 72P

Chapter 15, Problem 74P

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The two disks AA and BB have a mass of 4 kgkg and 6 kgkg , respectively. They collide with the initial velocities shown. The coefficient of restitution is eee = 0.75. Suppose that (vA)1(vA)1va = 6 m/sm/s , (vB)1(vB)1vb = 8 m/sm/s Determine the magnitude of the velocity of BB just after impact. Determine the angle between the xx axis and the velocity of BB just after impact, measured clockwise from the positive xx axis.

The two disks AA and BB have a mass of 4 kgkg and 6 kgkg , respectively. They collide with the initial velocities shown. The coefficient of restitution is eee = 0.75. Suppose that (vA)1(vA)1va = 6 m/sm/s , (vB)1(vB)1vb = 8 m/sm/s Determine the magnitude of the velocity of AA just after impact. Determine the angle between the xx axis and the velocity of AA just after impact, measured clockwise from the negative xx axis.

Disk A and B have a mass if 6kg and 4kg respectively. They are sliding down on the smooth hoeizontal plane with the velocities shown. the coefficient of the restitution is 0.6. a. Determine the angle between velocity of A and the line of impact after collision b. Determine the angle between velocity of B and line of impact after collision

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The velocity of each disks just after the collision and direction of the disk B .

Solution Summary: The author illustrates the principle of conservation of linear momentum by drawing the free body diagram of the disks as shown in Figure (1).

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The velocity of each disks just after the collision and direction of the disk B .

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Chapter 15 Solutions