Explanation Write the expression for momentum for a perfectly inelastic collision, m 1 v 1 i + m 2 v 2 i = m 1 v 1 f + m 2 v 2 f (I) Here , m 1 and v 1 are the mass and velocity respectively for first object, m 2 and v 2 are the mass and velocity respectively for second object and subscripts i and f denote the initial and final momenta of objects in a system. Write the expression for kinetic friction for a body, f k = μ k η (II) Here, f k is the force of kinetic energy, μ k coefficient for kinetic friction, and η normal force. Write the expression for accelerations with respect to coefficient for kinetic friction. a = μ k g (III) Here, a is the acceleration, μ k coefficient for kinetic friction, and g is the gravitational constant. Write the equation of motion of a body. v f 2 = v i 2 + 2 a ( x f − x i ) (IV) Here, v f and v i are the initial and final velocity, a is the acceleration, and x f , x f are the initial and final positions. Conclusion Before collision the mass of the bullet is m 1 = 10.0 g and has a speed of v 1 i = v b and for the block the mass is m 2 = 200 g and speed equal to zero

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Elastic and Inelastic Collisions; Author: Professor Dave Explains;https://www.youtube.com/watch?v=M2xnGcaaAi4;License: Standard YouTube License, CC-BY

The speed of the bullet.

Solution Summary: The author explains the expression for momentum for a perfectly inelastic collision, kinetic friction, and accelerations.

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The speed of the bullet.

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Chapter 8 Solutions