Explanation Given: The mass of a block, m = 10 kg . The initial speed of the block for observer A and B , v 1 = 5 m / s and 3 m/s . Show the free body diagram of the block as in Figure (1). Apply the principle of impulse and momentum equation. m v 1 + ∑ ∫ t 1 t 2 F d t = m v 2 m v 1 + F ∫ t 1 t 2 d t = m v 2 (I) Here, the initial and final velocity of the block is v 1 and v 2 respectively, initial and final linear momentum of the block is m v 1 and m v 2 , impulses acting on the block from time limits t 1 to t 2 is ∑ ∫ t 1 t 2 F d t , and variable in time is dt . Conclusion: For observer A : Apply the limits from 0 to 4 s and substitute 10 kg for F , 5 m/s for v 1 , and 6 N for F in Equation (I)

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Chapter 15, Problem 26P

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The final speed of the block in 4 s obtained by an observer A.

The final speed of the block obtained by an observer B:

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Chapter 15, Problem 25P

Chapter 15, Problem 27P

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The final speed of the block in 4 s obtained by an observer A . The final speed of the block obtained by an observer B :

Solution Summary: The author shows the free body diagram of the block as in Figure (1). Apply the principle of impulse and momentum equation.

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The final speed of the block in 4 s obtained by an observer A.

The final speed of the block obtained by an observer B:

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Chapter 15 Solutions

The final speed of the block in 4 s obtained by an observer A . The final speed of the block obtained by an observer B :

Solution Summary: The author shows the free body diagram of the block as in Figure (1). Apply the principle of impulse and momentum equation.

Concept explainers

Videos

The final speed of the block in 4 s obtained by an observer A. The final speed of the block obtained by an observer B:

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Chapter 15 Solutions

The final speed of the block in 4 s obtained by an observer A.

The final speed of the block obtained by an observer B: