My answer is incorrect, please write your explanation(process detail) why the answer is PV and write why my answer is wrong.

I attach the image and write my process of explanation.

My solution:

When the observer is moving away with a speed of vo.

Using Doppler's effect for this case,

f=fov-vov

Then observer speed will be

vo=v1-ffo

putting the values

vo=v1-pfofovo=v1-p

Hence, the speed of the observer (moving away) is vo=v1-p.

Professor's solution and answer (I attach in the image)

Transcribed Image Text:

2. Consider a situation where a source is emitting a painfully high frequency sound and you want to reduce the observed frequency of the sound by a proportion p, where 0 < p < 1. With what speed (as a function of the speed of sound, v) must an observer move away if the source is stationary to hear the sound with the desired reduced frequency? a. using 2oppler's efeet for this lase 1-६, () Then observer speed willbe Vo= V()-?) %3D the speed of the observer ( moving anoy) a) v, =

Transcribed Image Text:

OneNote Home Insert Draw View Class Notebook 2 Share Text Lasso Insert Eraser Pen Marker Highlighter Ink 0.25 mm 0.35 mm 0.5 mm 0.7 mm 1 mm Mode Select Space Color 2. CONSIUCI a StuaIOT WTICIt a SOUILC IS CMUTng a pamuuny IugIIcquticy 5ounu ana you waIm TO Tcuuct uit observed frequency of the sound by a proportion p, where 0 <p< 1. With what speed (as a function of the speed of sound must an observer move away if the source is stationary to hear the sound with the desired reduced frequency? IN p222 oscillations & waves v а. spring-mass sy.. Wk 1 will be the unit oscillations HW Wk 4 observer moving away: waves example... Wk 5 pendulum N-No fo - f, ( ) 22w tests f, =(1-) fs » (1-p) %= %( ) N - No T-p= af - Np = gt - No this is the it ーダ 1х 10 9:45 -23:06 CC 속도 품질