(a) Explanation Write the expression for MOI of two dumbbells as. I d = 2 ( m r 2 ) Here, I d a moment of inertia of dumbbells, m is a mass of dumbbell and r radius of rotation of dumbbell from the axis of rotation. The total moment of inertia of the student- dumbbell system is the sum of the moment of inertia of student and dumbbell Write the expression for total moment of inertia in initial condition as. I = 2 ( m r 2 ) + I student (I) Here, I is the total moment of inertia for the student, stool, and dumbbells and I student is combined moment of inertia for student and stool. Total moment of inertia is changed according to the radius of rotation of dumbbells when the radius of rotation taken 1.00 m it given an initial moment of inertia ( I i ) and when the radius of rotation taken 0.300 m it given a final moment of inertia ( I f ) . Write the expression for conservation of angular momentum as. I i ω i = I f ω f (II) Here, I i is the initial moment of inertia for a given system, ω i is the initial angular velocity of the student, I f is the final moment of inertia for a given system, ω f is new angular velocity for the student. Conclusion: Substitute 3.00 kg for m , 1.00 m for r and 3.00 kg ⋅ m 2 for I student in equation (I) then it gives I i (b) To determine The final kinetic energy of the rotational system.

Physics for Scientists and Engineers With Modern Physics

9th Edition

ISBN: 9781133953982

Author: SERWAY, Raymond A./

Publisher: Cengage Learning

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Chapter 11, Problem 34P

(a)

To determine

The new angular speed of the student

(b)

To determine

The final kinetic energy of the rotational system.

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Chapter 11, Problem 33P

Chapter 11, Problem 35P

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Physics for Scientists and Engineers With Modern Physics

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The new angular speed of the student

Solution Summary: The author writes the expression for MOI of two dumbbells as.

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The new angular speed of the student

The final kinetic energy of the rotational system.

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Chapter 11 Solutions