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16 August, 17:22

Two speakers separated by a distance of 4.40 m emit sound. The speakers have opposite phase. A person listens from a location 3.00 m directly in front of one of the speakers.

What is the lowest frequency that gives destructive interference in this case?

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  1. 16 August, 17:23
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    f = 147.21 Hz

    Explanation:

    In order to have a destructive interference, as the source emit in opposite phases, the path difference between the distance to the person, measured in a straight line from the speakers, must be equal to an integer number of wavelengths.

    We need to know the distance from the listener to the other speaker, located 4.4 m from the one which is directly in front of him, which we can find using Pythagorean theorem, as follows:

    l₂ = √ (3) ² + (4.4) ² = 5.33 m

    The difference in path will be, then:

    d = l₂-l₁ = 5.33 m - 3.00 m = 2.33 m

    For the lowest frequency that gives destructive interference, the wavelength will be highest possible, which happens when the distance is just one wavelength.

    ⇒ d = λ = 2.33 m

    In any wave, there exists a fixed relationship between speed, frequency and wavelength, as follows:

    v = λ*f Κ ⇒ f = v/λ

    Taking the speed of sound as 343 m/s, and solving for f, we get:

    f = 343 m/s / 2.33 m = 147.21 Hz
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