Answer to Question #288778 in Mechanics | Relativity for NICKO

Explanations & Calculations

• The harmonics possible for this setup is given by the formula "f_n=n\\frac{V}{2L}" .
• Then the fundamental frequency corresponds to "\\small n=1" .
• The speed of waves on the string is "\\small V=\\sqrt{\\frac{T}{\\mu}}"
• Here "\\small \\mu": the mass per unit length is "\\mu= \\frac{0.003\\,kg}{0.400\\,m}=\\small 0.0075\\,kgm^{-1}"
• Therefore,

"\\qquad\\qquad\n\\begin{aligned}\n\\small f_1&=\\small 1\\times\\frac{\\sqrt{\\frac{800\\,N}{0.0075\\,kgm^{-1}}}}{2\\times0.400\\,m}\\\\\n&=\\small 408.25\\,s^{-1}\\,\\text{or}\\,\\,408.25\\,Hz\n\\end{aligned}"

• This string setup can produce all the consecutive harmonics for "\\small n=1,2,3..."
• Therefore, the highest harmonic would be at some "n" value that would near or equal the maximum hearing frequency.
• Then,

"\\qquad\\qquad\n\\begin{aligned}\n\\small n\\times408.25\\,Hz&=\\small10000\\,Hz\\\\\n\\small n&=\\small 24.49\\\\\n\\small n & \\approx \\small 24\n\\end{aligned}"

• It's the "\\small 24^{th}" harmonic.