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11 August, 14:42

How does increasing the wavelength by 50 percent affect the frequency of a wave on a rope?

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  1. 11 August, 17:21
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    It decreases the frequency by 33.33%

    Explanation:

    The frequency of a wave is given by the division between its velocity and its wavelength:

    f = v/L, where f is the frequency in hertz, v is the velocity in m/s, and L is the wavelength in meter

    If we increase the wavelength by 50 percent, we have that L' = 1.5*L (L' is the new wavelength)

    Keeping the same velocity, we have the new frequency (f') as:

    f' = v/L' = v/1.5*L = (1/1.5) * v/L = 0.6667*f

    The new frequency is 66.67% of the old frequency, that is, the old frequency decreased 33.33%.

    So, increasing the wavelength by 50% decreases the frequency by 33.33% or 1/3
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