Alessandra J.
asked • 11/28/24Physics 1 ch 13
The clarinet is a well-modeled cylindrical pipe that is open at one end and closed at the other. For a clarinet's whose air column has an effective length f 0.387 m, determine the wavelength Ym=3 and frequency fm=3 of the third normal mode of vibration.
Use 344m/s for the speed of sound inside the instrument.
Ym=3? fm=3?
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1 Expert Answer
William W. answered • 11/28/24
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Wavelength (λ) for the third harmonic = (4/3)L = (4/3)(0.387) = 0.516 m
Frequency (f) for the third harmonic = (3v)/(4L) = [(3)(344)]/[(4)(0.387)] = 667 Hz
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Dr Gulshan S.
As l=.387 m For pipe open at one end Fundamental mode is l = half of wave length V=f*wave length For first mode or fundamental mode l =3*wavelength /2 For second second mode l =5*wavelength /2 For third mode l = 7*Wavelngth /2 And so on11/29/24