Explanation Given: Initial mass of the star, M = 8 times the mass of the Sun = 8 × 1.989 × 10 30 kg Radius of the star (sun), R = 6.95 × 10 8 m Angular velocity of the star, ω = 1 rev 9 days Radius of star, r = 12 × 10 3 m Mass of star, m = M 4 = 2 × 1.989 × 10 30 kg Formula used: According to the principle of conservation of angular momentum, L i = L f When the thrown-off mass carries no angular momentum I i ω i = I f ω f Where, I i and ω i are the moment of inertia and angular velocity of the original star and I f and ω f are the final moments of inertia and the angular velocity of the star-thrown off mass or ω f = I i ω i I f Moment of inertia of sphere: I = ( 2 5 ) M r 2 Calculation: ω f = 2 5<

7th Edition

ISBN: 9780321625922

Author: Douglas C. Giancoli

Publisher: Addison-Wesley

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Chapter 8, Problem 90GP

To determine

(a)To Determine:

Rotation speed of the star, when the thrown-off mass carries offno angular momentum.

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Chapter 8, Problem 89GP

Chapter 8, Problem 91GP

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Physics: Principles with Applications

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(a)To Determine: Rotation speed of the star, when the thrown-off mass carries offno angular momentum .

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(a)To Determine: Rotation speed of the star, when the thrown-off mass carries offno angular momentum.

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Chapter 8 Solutions

(a)To Determine:

Rotation speed of the star, when the thrown-off mass carries offno angular momentum.