Explanation Given data: Radius of the merry go round is 9.01 m, Frequency of the tone played by the speaker is 100.0 Hz, Speed of sound is 343 m s , and The merry-go-round revolves once in every 20.0 s. Formula used: Write the expression for speed. v = d t (1) Here, v is the speed, d is the distance covered, and t is the time. Write the expression for circumference of a circle. C = 2 π r (2) Here, C is the circumference of the circle, and r is the radius. Write the expression for source moving towards the stationary observer. f o = f s ( 1 1 − v s v ) (3) Here, f o is the observed frequency, f s is the frequency emitted by the source, v s is the speed of the source of sound, and v is the speed of sound. Write the expression for source moving away from the stationary observer. f o = f s ( 1 1 + v s v ) (4) Here, f o is the observed frequency, f s is the frequency emitted by the source, v s is the speed of the source of sound, and v is the speed of sound. Explanation: The distance travelled by the speaker is its circumference covered by the merry go round. Substitute 2 π r for d in equation (1), v = 2 π r t For speed of the speaker, Substitute 9.01 m for r and 20.0 s for t , v s = 2 π × 9.01 m 20.0 s = 2.83 m s For frequency of the sound coming from the right speaker, Substitute 100

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ISBN: 9781119460176

Author: CUTNELL, John D., Johnson, Kenneth W., YOUNG, David, Stadler, Shane

Publisher: WILEY

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Chapter 17, Problem 26P

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