Explanation Given data: The acceleration ( a ) is 1.4 g . The radius of the circular path from the rotational axis to her feet is 1.1 m . Formula used: Formula to calculate the centripetal acceleration in terms of the frequency is given by, a = ( 2 π f ) 2 r (1) Here, f is the frequency, and r is the radius of the circular path. Formula to calculate the frequency of rotation in rpm is given by, f ( in rpm ) = 60 f ( in Hz ) (2) Here, f ( in Hz ) is the frequency in Hertz. Explanation: Rearrange the equation (1) as follows, ( 2 π f ) 2 = a r Taking square root on both sides for the above equation, 2 π f = a r f = 1 2 π a r Substitute 1.4 g for a and 1.1 m for r in f

College Physics: A Strategic Approach (4th Edition)

4th Edition

ISBN: 9780134609034

Author: Randall D. Knight (Professor Emeritus), Brian Jones, Stuart Field

Publisher: PEARSON

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Question

Chapter 6, Problem 11P

To determine

The frequency (f) required to give an acceleration of 1.4 g to an astronaut’s feet, if her feet are 1.1 m from the platform’s rotational axis.

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Chapter 6, Problem 10P

Chapter 6, Problem 12P

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Chapter 6 Solutions

College Physics: A Strategic Approach (4th Edition)

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The frequency ( f ) required to give an acceleration of 1.4 g to an astronaut’s feet, if her feet are 1.1 m from the platform’s rotational axis.

The frequency (f) required to give an acceleration of 1.4 g to an astronaut’s feet, if her feet are 1.1 m from the platform’s rotational axis.

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Chapter 6 Solutions