Answer to Question #163186 in Optics for Yolande

Question #163186

If a human ear canal can be thought of as resembling an organ pipe, closed at one end that resonates at a fundamental frequency of 3000 Hertz. what is the length of the canal?

Expert's answer

Let's assume that the normal body temperature is "37^{\\circ}" and find the speed of sound in the human ear canal:

"v=\\sqrt{\\dfrac{\\gamma RT}{M}},""v=\\sqrt{\\dfrac{1.4\\cdot8.314\\ \\dfrac{J}{mol\\cdot K}\\cdot310.15\\ K}{0.02896\\ \\dfrac{kg}{mol}}}=353\\ \\dfrac{m}{s}."

Then, we can find the wavelength of wave, from the wave speed equation:

"v=f\\lambda,""\\lambda=\\dfrac{v}{f}=\\dfrac{353\\ \\dfrac{m}{s}}{3000\\ Hz}=0.118\\ m."

For the fundamental (first) harmonic in closed-end pipe we have the following length-wavelength relationship:

"\\lambda=4L,""L=\\dfrac{\\lambda}{4}=\\dfrac{0.118\\ m}{4}=0.0295\\ m=2.95\\ cm."