Determine the mass per unit length of the string.

AI Thread Summary
To determine the mass per unit length of a guitar's E-string, the tension is given as 85 N and the fundamental frequency as 329.79 Hz. The wavelength is correctly identified as twice the string length, which is 1.3 m when converted from 65 cm. The formula for mass per unit length requires squaring the frequency and using the correct units. The final calculation yields a mass per unit length of approximately 4.6e-4 kg/m. Accurate unit conversion and proper application of the formula are crucial for obtaining the correct result.
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Homework Statement


A guitar's E-string has length 65 cm and is stretched to a tension of 85 N. It vibrates at a fundamental frequency of 329.79 Hz. Determine the mass per unit length of the string.
1Your answer is in kg/m


Homework Equations


(mass per unit length) = (tension) / ((frequency)x(wave length))^2


The Attempt at a Solution


The tension is 85 N, and the freq is 329.79 Hz, and how do i figure out the wave length, it thought the wavelength was twice the e string length in cm.
 
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Yes, wavelength is twice the string length because the string is vibrating at its fundamental frequency.
 
ok, i get an answe 1.5e-5 but its not correct am i doing something wrong
 
I think you forgot to convert cm to m, and you didn't square the value for frequency. Using that formula you are supposed to get a value of 4.6e-4 kg/m, correct me if I'm wrong.
 

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