In the given figure below, a 3.0 -kg block is sliding down a 60°-rough incline. The speed of the. block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the coefficient of kinetic friction between the block and the incline is 0.35. What would be the maximum compression (in m) of the spring?

In the given figure below, a 3.0 -kg block is sliding down a 60°-rough incline. The speed of the. block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the coefficient of kinetic friction between the block and the incline is 0.35. What would be the maximum compression (in m) of the spring?

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Question

show solution pls

In the given figure below, a 3.0 -kg block is sliding down a 60°-rough incline. The speed of the.
block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other
lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the
coefficient of kinetic friction between the block and the incline is 0.35. What would be the
maximum compression (in m) of the spring?
5.25 m
60
Enter your answer below (no unit)
Round your answer to 2 decimal places.
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Step 1: Introduction

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Step 2: Finding the acceleration of block

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Step 3: Calculation total kinetic energy of block and displacement of spring

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