Explanation Section 1: To determine: The initial angular speed of the neutron star. Answer: The initial angular speed of the neutron star is 2.42 × 10 − 6 rad/sec . Explanation: Given information: The density of neutron star is 10 14 times that of ordinary matter, Initial radius of star is 7 × 10 5 km , Final radius is 16 km . Formula to calculate the initial angular velocity of the star is, ω 1 = 2 π 30 d ω 1 is the initial angular velocity. Substitute 8.64 × 10 4 s for d in the above equation is, ω 1 = 2 π ( 30 × 8.64 × 10 4 s ) = 2.42 × 10 − 6 rad/sec The initial angular speed of the neutron star is 2.42 × 10 − 6 rad/sec . Section 2: To determine: The final angular speed of the neutron star. Answer: The initial angular speed of the neutron star is 4.6 × 10 3 rad/s . Explanation: Given information: The density of neutron star is 10 14 times that of ordinary matter, Initial radius of star is 7 × 10 5 km , Final radius is 16 km . Formula to calculate the moment of inertia is, I = 2 5 m r 1 2 m is the mass of the star. r 1 is the initial radius. Convert r 1 from km to m . r 1 = 7 × 10 5 km = 7 × 10 8 m Convert r 2 from km to m . r 2 = ( 16 km ) = 1.6 × 10 4 m Formula to calculate the initial angular momentum is, L i = I 1 ω 1 Substitute 2 5 m r 1 2 for I 1 in the above equation

14th Edition

ISBN: 9780133969290

Author: Hugh D. Young, Roger A. Freedman

Publisher: PEARSON

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Chapter 10, Problem 10.41E

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The angular speed of the neutron star.

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Chapter 10, Problem 10.40E

Chapter 10, Problem 10.42E

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The angular speed of the neutron star.

Solution Summary: The author calculates the initial angular velocity of the neutron star, which is 2.42times 10-6 rad/sec.

The angular speed of the neutron star.

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Chapter 10 Solutions