I mean if we change the temperature of a sound wave passing area so that is there is any change in its wave length.how can we know that please tell me anyone
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u = 20.046*√T m/s where T is the Kelvin temperature of the air.
It is clear that u is a direct function of T only, not density, pressure, or anything else.
Wavelength λ = u/f
With equal clarity, for a particular frequency, λ is proportional to √T
It is clear that u is a direct function of T only, not density, pressure, or anything else.
Wavelength λ = u/f
With equal clarity, for a particular frequency, λ is proportional to √T
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Yes, the wavelength will change with temperature. Temperature affects the density of the media, and a change in density implies a change in the velocity of the propagating wave. If your source has a constant frequency, the change in velocity will imply a change in the wavelength.
Hope it helped.
Hope it helped.
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If the medium it is passing through is elevated in temperature, there will be a change in velocity, therefore wavelength.
This has no effect on the pitch (frequency) of the sound, it only alters the time it takes to pass through that warmer area.
This has no effect on the pitch (frequency) of the sound, it only alters the time it takes to pass through that warmer area.