Violin Harmonics HW: Finding Lowest Frequency Oscillation

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The discussion revolves around determining the harmonic number for a 1320 Hz frequency produced by a 32 cm violin string with a linear mass density of 0.36 gm/m. The user is trying to find the lowest frequency of oscillation but is struggling with calculating the velocity of the string due to unknown tension. They deduce that the difference between the two frequencies, 440 Hz, could represent the fundamental frequency. It is confirmed that both frequencies must be divisible by this fundamental frequency, establishing that 1320 Hz corresponds to harmonic number n and 1760 Hz to harmonic number n+1. The conversation emphasizes the importance of identifying relevant information and avoiding distractions in problem-solving.
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Homework Statement


a 32 cm violin string with linear mass density is .36 gm/m is placed near a loudspeaker that is fed by an audio oscillator of variable frequency. It is found that hte string is set into oscillations at frequencies 1320 Hz and 1760 Hz as the frequency of the audio oscillator is varied continuously over the range of 1000-1800 Hz. Which harmonic is the 1320 Hz for the violin?


Homework Equations


L = (wavelength)/2
v = (frequency)*(wavelength)


The Attempt at a Solution


I am attempting to find the "lowest frequency of oscillation". so f=v/(2*L). L is known, but v is not. I am trying to find the velocity of the string, but this is where I encounter a problem.
 
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mathilin said:

Homework Statement


a 32 cm violin string with linear mass density is .36 gm/m is placed near a loudspeaker that is fed by an audio oscillator of variable frequency. It is found that hte string is set into oscillations at frequencies 1320 Hz and 1760 Hz as the frequency of the audio oscillator is varied continuously over the range of 1000-1800 Hz. Which harmonic is the 1320 Hz for the violin?


Homework Equations


L = (wavelength)/2
v = (frequency)*(wavelength)


The Attempt at a Solution


I am attempting to find the "lowest frequency of oscillation". so f=v/(2*L). L is known, but v is not. I am trying to find the velocity of the string, but this is where I encounter a problem.

Maybe i oculd just do 1760-1320=440 (is this the fundamental frequency?)
 
mathilin said:
Maybe i oculd just do 1760-1320=440 (is this the fundamental frequency?)

Yes, that seems to work.
 
mathilin said:
Maybe i oculd just do 1760-1320=440 (is this the fundamental frequency?)

Yes.1320 and 1760 must both be divisible by the fundamentat frequency and if 1320 is harmonic number n then 1760 must be harmonic number n+1.Now you can work it out.Also, many questions have red herrings(information you don't need)
 
Got it, thanks for the help.
 

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