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TheMomax · Answer 1 · 2019-03-06T13:06:52+0000

The beat frequency (4 beat per second = 4 Hz ) corresponds to the difference between the frequencies of the two waves:

4 Hz = f_1 - f_2

(1)

The frequency of the first wave can be written as

$f_1= (v)/(\lambda_1)$
where v is the speed of sound in the gas and
$\lambda_1 = 0.8 m$ is the wavelength of the first wave, while the frequency of the second wave is

$f_2 = (v)/(\lambda_2)$
where
$\lambda_2=0.81 m$ is the wavelength of the second wave. If we substitute into the first equation (1), we find

$4 Hz = (v)/(\lambda_1)- (v)/(\lambda_2) = v ((1)/(\lambda_2)- (1)/(\lambda_2) )$

and if we re-arrange it, we can find the velocity of the sound in the gas:

$v= (4 Hz)/( (1)/(\lambda_1)- (1)/(\lambda_2) )= (4 Hz)/( (1)/(0.8 m) - (1)/(0.81 m) )=259.2 m/s$

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