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Describe how you could use part (b) of Table 9.2 to derive

University Physics | 13th Edition | ISBN: 9780321675460 | Authors: Hugh D. Young, Roger A. Freedman ISBN: 9780321675460 31

Solution for problem 13DQ Chapter 9

University Physics | 13th Edition

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University Physics | 13th Edition | ISBN: 9780321675460 | Authors: Hugh D. Young, Roger A. Freedman

University Physics | 13th Edition

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Problem 13DQ

Describe how you could use part (b) of Table 9.2 to derive the result in part (d).

Step-by-Step Solution:

Solution 13DQ Step 1: Consider a slender rod of length L and mass M. The moment of inertia of the slender rod about an axis passing through one end, 2 I = ML Consider two rods having lengths a and b are joined. 2 2 Moment of inertia of this system through its center of mass, I = 1/12 M (a + b cm Where, M - Mass of the system 2 According to parallel axes theorem equation, I = I + Md cm Where, d - distance of the center of mass from the origin. d = (a/2) + (b/2) 2 d = (a + b ) / 4 2 2 2 2 Then, I = M/12 (a + b ) + M/4 (a + b ) I = (a + b ) {(M/12) + (M/4)} = (a + b ) M/3 2 2 2 I = M (a + b ) If the axis moved to b , then, I = Ma , (b =0) 2

Step 2 of 1

Chapter 9, Problem 13DQ is Solved
Textbook: University Physics
Edition: 13
Author: Hugh D. Young, Roger A. Freedman
ISBN: 9780321675460

This full solution covers the following key subjects: part, could, describe, derive, result. This expansive textbook survival guide covers 26 chapters, and 2929 solutions. The full step-by-step solution to problem: 13DQ from chapter: 9 was answered by , our top Physics solution expert on 05/06/17, 06:07PM. Since the solution to 13DQ from 9 chapter was answered, more than 415 students have viewed the full step-by-step answer. This textbook survival guide was created for the textbook: University Physics, edition: 13. The answer to “Describe how you could use part (b) of Table 9.2 to derive the result in part (d).” is broken down into a number of easy to follow steps, and 17 words. University Physics was written by and is associated to the ISBN: 9780321675460.

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Describe how you could use part (b) of Table 9.2 to derive