(a) Explanation In example 8.8 , A block having a mass of 0.8 kg is given an initial velocity 1.2 m / s to the right and collides with a spring stiffness is 50 kN / m and the coefficient of the friction between the block and surface is 0.5 . In spring block system, the friction force is a non-conservative force so the energy will be dissipated and total energy will not be conserved. The spring is fewer compresses if present friction on the surface than the frictionless surface. Write the formula to calculate the distance covered by block by the conservation of energy 1 2 m v 2 = 1 2 k x 2 + μ m g x Here, m is the mass of the block, k is the stiffness of the spring, μ is the coefficient of the friction, g is the acceleration due to gravity and x is the distance covered by the block. Substitute 0.8 kg for m , 1.2 m / s for v , 50 kN / m for k , 0.5 for μ and 9.81 m / s 2 for g to find x . 1 2 × 0.8 kg × ( 1.2 m / s ) 2 = 1 2 50 kN / m × x 2 + 0.5 × 0.8 kg × 9.81 m / s 2 × x 25 x 2 + 3.924 x − 0.576 = 0 x = 0.092 m, − 0.249 m Now the block will move towards left and assume the maximum distance it can move towards left be x 1 (b) To determine The maximum value of coefficient of friction that would allow the block to return to x = 0 .

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Chapter 8, Problem 8.75AP

(a)

To determine

The block never arrives back at x=0.

(b)

To determine

The maximum value of coefficient of friction that would allow the block to return to x=0.

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Chapter 8, Problem 8.74AP

Chapter 8, Problem 8.76AP

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The block never arrives back at x = 0 .

Solution Summary: The author explains that the block never arrives back at x=0 and does not return to the original position.

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The block never arrives back at x=0.

The maximum value of coefficient of friction that would allow the block to return to x=0.

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Chapter 8 Solutions