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The frequency of sound waves in air from a violin string are around 863 hz. if the speed of sound in air is 300 m/s (approximately), what is the wavelength of the sound waves?

Respuesta :

If freq = wave speed / wavelength,

then 863 Hz = 300m/s / wavelength

Solve for wavelength.

wavelength = 300m/s /863 Hz = .......m

The number of waves that travel through a particular point in a given length of time is referred to as frequency. The wavelength of the sound waves is 0.348 meters.

What is the frequency?

The number of waves that travel through a particular point in a given length of time is referred to as frequency.

We know the relationship between the speed of sound, its frequency, and wavelength is the same as for all waves:

V = fλ,

where V is the speed of sound, f is its frequency, and λ is its wavelength.

Now, the wavelength can be written as,

[tex]V = f\lambda\\\\300 = 863 \times \lambda\\\\0.348 =\lambda[/tex]

Hence, the wavelength of the sound waves is 0.348 meters.

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