With what speed (as a function of the speed of sound, v) must the source must move away from a stationary observer for the observer to hear the sound with the desired reduced frequency?
With what speed (as a function of the speed of sound, v) must the source must move away from a stationary observer for the observer to hear the sound with the desired reduced frequency?
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter1: Introduction And Vectors
Section: Chapter Questions
Problem 4OQ: What is the y component of the vector (3i8k) m/s? (a) 3 m/s (b) 8 m/s (c) 0 (d) 8 m/s (e) none of...
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My answer is incorrect, please write your explanation(process detail) why the answer is v(p)/(1-p) and write why my answer is wrong.
I attach the image and write my process of explanation.
My solution:
When the source is moving away with a speed of vs.
Using Doppler's effect for this case,
f=fo(v/v+vs)
Then the speed f source will be
vs=(fo/f)-1v
putting the values
vs=(fo/pfo)-1v=1p-1v
Hence, the speed of the source (moving away) is vs=1p-1v.
Professor's solution and answer I attach in the image. Don't copy other answer.
Transcribed Image Text:With what speed (as a function of the speed of sound, v) must the source must move away from a stationary
observer for the observer to hear the sound with the desired reduced frequency?
Using doppler's esbect
The
speed of Sourne Vs=
Putting the milve
of.
-1)V= (5-1)V
Pdo
b) v, = _(P - 1 ) v
b) vz =
%3D
Transcribed Image Text:source moving aw ay:
f, = f, ()
f, = (1-P) fs
|-p=
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