(a) Explanation The blocks are kept on the rough surface so there will be friction force acting in the direction opposite to the motion of the block. The heavier block will move downward and the lighter block will go in upward direction along the incline plane. The free body diagram of the block of mass 3.50 kg is as shown below. Write the expression for the normal reaction on the block as. n 1 = m 1 g cos θ (I) Here, n 1 is the normal reaction force on the block, m 1 is the mass of the block, g is the acceleration due to gravity and θ is the angle made by the inclined plane. Write the expression for the static equilibrium of the block along the inclined plane as. T − ( m 1 g sin θ + μ k n 1 ) = m 1 a Substitute m 1 g cos θ for n 1 in above equation. T − ( m 1 g sin θ + μ k m 1 g cos θ ) = m 1 a Rearrange the above equation for T . T = m 1 a + ( m 1 g sin θ + μ k m 1 g cos θ ) (II) Here, T is the tension in the string, μ k is the coefficient of kinetic friction and a is the acceleration of the block. The free body diagram of the block of mass 8.00 kg is as shown below. Write the expression for the normal reaction on the block as. n 2 = m 2 g cos θ (III) Here, n 2 is the normal reaction force on the block and m 2 is the mass of the block. Write the expression for the static equilibrium of the block along the inclined plane as. m 2 g sin θ − ( T + μ k n 2 ) = m 2 a Substitute m 2 g cos θ for n 2 in above equation. m 2 g sin θ − ( T + μ k m 2 g cos θ ) = m 2 a (IV) Conclusion: Substitute ( 3.50 kg ) for m 1 , ( 1 (b) To determine The tension in the string.

Physics for Scientists and Engineers with Modern Physics, Technology Update

9th Edition

ISBN: 9781305401969

Author: SERWAY, Raymond A.; Jewett, John W.

Publisher: Cengage Learning

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Chapter 5, Problem 71P

(a)

To determine

The coefficient of kinetic friction.

(b)

To determine

The tension in the string.

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Chapter 5, Problem 70P

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Physics for Scientists and Engineers with Modern Physics, Technology Update

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The coefficient of kinetic friction.

Solution Summary: The author explains the coefficient of kinetic friction, which is 0.087. The free body diagram of the block is as shown below.

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The tension in the string.

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Chapter 5 Solutions