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6 November, 00:07

A plumber is trying to fix a clog in a vertical pipe, but does not know how far down in the pipe the clog and the water level is. He is a good whistler, so he whistles into the open end of the pipe and finds that a frequency of 197hz (cycles per second) returns a loud resonant sound. He knows the speed of sound is 340 m/s. Calculate the depth of the air in the pipe (in meters) above the clog.

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  1. 6 November, 00:42
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    the shortest distance to the obstruction is 0.431 m

    Explanation:

    We can see this system as an air column, where the plumber is open and where the water is closed, in the case when he hears the sound there is a phenomenon of resonance and superposition of waves with constructive interference.

    For the lowest resonance we must have a node where the water is and a maximum where the plumber is a quarter of the wavelength

    λ = ¼ L

    If we are in a major resonance specifically the following resonance. We have a full wavelength plus a quarter of the wavelength

    λ = 4L / 3

    The general formula is

    λ = 4L / n n = 1, 3, 5, 7, ...

    In addition the wave speed is the product of the frequency by the wavelength

    v = λ f

    Let's replace

    v = (4L / n) f

    L = v n / (4 f)

    Now we can calculate the depth or length of the air column

    If we have the first standing wave n = 1

    L = 340 1 / (4 197)

    L = 0.431 m

    If it is the second resonance n = 3

    L = 340 3 / (4 197)

    L = 1.29 m

    We can see the shortest distance to the obstruction is 0.431 m
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