Solving Frequency Question Homework: 1.0 kHz Source Moving Towards/Away

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To solve the frequency question, the frequency of sound received by a stationary observer when the source moves towards her can be calculated using the formula F01 = fs / (1 - (vs/v)), and when moving away, the formula F02 = fs / (1 + (vs/v)) is used. Given a source frequency (fs) of 1.0 kHz, a source speed (vs) of 171.5 m/s, and the speed of sound (v) at 343 m/s, the calculations yield F01 and F02 values. The user encountered difficulties obtaining correct results, suggesting a misunderstanding of the formulas or the values used. Proper application of the equations with accurate values is essential for determining the correct frequencies. The discussion highlights the importance of correctly applying Doppler effect principles in sound wave frequency calculations.
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Homework Statement


A source of sound waves of frequency 1.0 kHz is traveling through the air at 0.50 times the speed of sound. (a) Find the frequency of the sound received by a stationary observer if the source moves towards her. (b) Repeat if the source moves away from her instead.


Homework Equations


v=0.5V

F01 = fs/1-(vs/v)

F02 = fs/1+(vs/v)

The Attempt at a Solution


I tried plugging in the values that are given to me, but I simply don't obtain the correct results. Please help? Thanks in advance.
 
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Show your calculations.
 
F01 = fs/1-(vs/v)

F02 = fs/1+(vs/v)

Using these equations, I plugged in:

1/1+(343/171.5) = 3

1/1-(343/171.5) = -1

I'm not sure if I must do something regarding the 1kHz given to me, but neither of both numbers are valid answers.
 
Fs' = Fs/(1 - Vs/V)
Fs = 1kHz, Vs = 171.5 m/s and V = 343 m/s.
Now try.
 

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