(a) Explanation Given info: The mass of the needle is 5.60 g , spring force constant is 375 N / m , magnitude of backward force is 9.20 N , distance of compression is 8.10 cm , magnitude of resistive force is 7.60 N . The formula to calculate the kinetic energy gained by the needle is, K . E = 1 2 m v 2 Here, m is the mass of the needle. v is the maximum speed of the needle. The formula to calculate the potential energy stored in the spring is, P . E = 1 2 k x 2 Here, k is the spring force constant. x is the distance of compression. The formula to calculate the law of conservation of energy to the total system is, K . E = P . E Here, K . E is the kinetic energy gained by the needle. P . E is the potential energy stored in the spring. Substitute 1 2 k x 2 for P . E and 1 2 m v 2 for K . E in the above formula to find v . K . E = P . E 1 2 m v 2 = 1 2 k x 2 Rearrange the above expression for v (b) To determine The speed at which the flange on the back end of the needle runs into a stop that is set to limit the penetration to 5.90 m .

9th Edition

ISBN: 9781133947271

Author: Raymond A. Serway, John W. Jewett

Publisher: Cengage Learning

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Chapter 8, Problem 8.78AP

(a)

To determine

The maximum speed of the needle.

(b)

To determine

The speed at which the flange on the back end of the needle runs into a stop that is set to limit the penetration to 5.90 m .

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Chapter 8, Problem 8.77AP

Chapter 8, Problem 8.79CP

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The maximum speed of the needle.

Solution Summary: The author explains the formula to calculate the kinetic energy gained by the needle and the law of conservation of energy to the total system.

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The maximum speed of the needle.

The speed at which the flange on the back end of the needle runs into a stop that is set to limit the penetration to 5.90 m .

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Chapter 8 Solutions