Explanation Given data: Mass of the lighter skater ( m L ) is 50 kg. Mass of the heavier skater ( m H ) is 75 kg. Distance between the edges of the circular rink (diameter of the rink) is 60 m. Time taken by the heavier skater to reach the edge ( Δ t H ) is 20 s. Formula used: As the collision is purely inelastic, the momentum of the system is conserved for the given system. Write the expression for momentum of conservation for the given system. m L ( v L x ) i + m H ( v H x ) i = m L ( v L x ) f + m H ( v H x ) f (1) Here, m L is the mass of the lighter skater, m H is the mass of the heavier skater, ( v L x ) i is the initial speed of the lighter skater, ( v H x ) i is the initial speed of the heavier skater, ( v L x ) f is the final speed of the lighter skater, and ( v H x ) f is the final speed of the heavier skater. Write the expression for velocity in terms of distance and time as follows. v = Δ x Δ t (2) Here, Δ x is the distance, and Δ t is the time interval. Explanation: As both the skaters are at rest at initial state, the speed of both the skaters is 0 m s at initial. Therefore, ( v L x ) i = 0 m s , and ( v H x ) i = 0 m s . Substitute 0 m s for ( v L x ) i , and 0 m s for ( v H x ) i in equation (1), m L ( 0 m s ) + m H ( 0 m s ) = m L ( v L x ) f + m H ( v H x ) f m L ( v L x ) f + m H ( v H x ) f = 0 m L ( v L x ) f = − m H ( v H x ) f m L m H = − ( v H x ) f ( v L x ) f As both the skaters at final state (after they push each other) move in the opposite direction to each other towards the edges of the rink, one of the velocities is negative with respect to the other velocity

College Physics: A Strategic Approach (3rd Edition)

3rd Edition

ISBN: 9780321879721

Author: Randall D. Knight (Professor Emeritus), Brian Jones, Stuart Field

Publisher: PEARSON

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Question

Chapter 9, Problem 59GP

To determine

To find: The time taken by the lighter skater to reach the edge.

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Chapter 9, Problem 58GP

Chapter 9, Problem 60GP

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College Physics: A Strategic Approach (3rd Edition)

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