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8 November, 11:30

A pipe open only at one end has a fundamental frequency of 266 Hz. A second pipe, initially identical to the first pipe, is shortened by cutting off a portion of the open end. Now when both pipes vibrate at their fundamental frequencies, a beat frequency of 10 Hz is heard. How many centimeters were cut off the end of the second pipe?

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  1. 8 November, 14:58
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    1.16cm were cut off the end of the second pipe

    Explanation:

    The fundamental frequency in the first pipe is,

    Since the speed of sound is not given in the question, we would assume it to be 340m/s

    f1 = v/4L, where v is the speed of sound and L is the length of the pipe

    266 = 340/4L

    L = 0.31954 m = 0.32 m

    It is given that the second pipe is identical to the first pipe by cutting off a portion of the open end. So, consider L' be the length that was cut from the first pipe.

    So, the length of the second pipe is L - L'

    Then, the fundamental frequency in the second pipe is

    f2 = v/4 (L - L')

    The beat frequency due to the fundamental frequencies of the first and second pipe is

    f2 - f1 = 10hz

    [v/4 (L - L') ] - 266 = 10

    [v/4 (L - L') ] = 10 + 266

    [v/4 (L - L') ] = 276

    (L - L') = v / (4 x 276)

    (L - L') = 340 / (4 x 276)

    (L - L') = 0.30797

    L' = 0.31954 - 0.30797

    L' = 0.01157 m = 1.157 cm ≅ 1.16cm

    Hence, 1.16 cm were cut from the end of the second pipe
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