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A bird is flying directly toward a stationary bird-watcher and emits a frequency of 1490 Hz. The bird-watcher, however, hears a frequency of 1505 Hz. What is the speed of the bird, expressed as a percentage of the speed of sound

User DawnSong
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1 Answer

16 votes
16 votes

Answer:

The speed of the bird is 1.00% of the speed of sound.

Step-by-step explanation:

The speed of the bird can be found by using the Doppler equation:


f = f_(0)((v - v_(r))/(v - v_(s)))

Where:

v: is the speed of sound = 343 m/s

f₀: is the frequency emitted = 1490 Hz

f: is the frequency observed = 1505 Hz


v_(r): is the speed of the receiver = 0 (it is stationary)


v_(s): is the speed of the source =?

The minus sign of
v_(s) is because the source is moving towards the receiver.

By solving the above equation for
v_(s) we have:


v_(s) = v - (f_(0)*v)/(f) = 343 - (1490*343)/(1505) = 3.42 m/s

The above speed in terms of the speed of sound is:


\% v_(s) = (3.42)/(343)* 100 = 1.00 \%

Therefore, the speed of the bird is 1.00% of the speed of sound.

I hope it helps you!