What is the tension in the string?

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The discussion revolves around calculating the tension in a violin string based on its length and linear density, given specific oscillation frequencies. The string vibrates at frequencies that are integer multiples of a fundamental frequency, with 1312 Hz and 1749 Hz identified as such. To find the tension, the relationship between wave speed, tension, and linear density is utilized, along with the equation that relates frequency to wavelength. The solution involves determining the fundamental frequency and solving for the tension using the derived equations. Ultimately, the calculated tension is approximately 2.77 N.
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Homework Statement


A string from an Andrew Kirk violin is 30.0 cm long, with a linear density of 0.645 g/m. The violin is placed near a loudspeaker that is fed by an audio oscillator of variable frequency. It is found that the string is set into oscillation only at the frequencies 1312 Hz and 1749 Hz, as the frequency of the oscillator is varied over the range 1093 Hz to 1968 Hz. What is the tension in the string?



Homework Equations


v=sqrt(T/linear density) v=lambda x frequency


The Attempt at a Solution


I made these 2 equations equal to each other. However, I am unsure as to what proportion of L lambda is, and what to use for frequency. Once I know what to do here I can then isolate for tension and solve.

Thanks in advance, any help would be GREATLY appreciated.
 
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can you give me a further hint as to how to find what to use for frequency? I've got less than an hour :S
 
The frequencies given will be integer multiples of a fundamental frequency. So 1312Hz will be nf_1 for example and 1749Hz will be the next integer multple from that, so it'll be (n+1)f_1.
 
oh okay...so is a final answer of correct? 2.77N I have one try left :S:S:S:S
 
Since length of the string remains the same, for different frequencies the number of loops must be different.
Hence 1312*(n+1) = 1749*n. Solve for n and then find tension.
 

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