Relationship Between Tension And Resonant Frequency.

AI Thread Summary
The relationship between tension and resonant frequency in a rubber band involves understanding how tension affects the frequency of stationary waves. The resonant frequency can be described by the equation f = 1/2L * sqrt(T/μ), where T is tension and μ is mass per unit length. Stretching the rubber band significantly alters its mass per length, complicating the analysis. However, if the oscillations remain small, it is reasonable to assume that mass per length remains constant for practical calculations. This simplification allows for a more straightforward application of the resonant frequency equation in this context.
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1. I have to find out the relationship between tension and resonant frequency in a length of rubber, using stationary waves.



2. I know there is an equation for the resonant frequency in a length of string, given as f= 1/2L * sqrt T/μ . I am however imagining that as this is a rubber band, therefore much more stretch, that the mass per unit length changes considerably. Anyone have any ideas about it?
 
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Yes, you are right that the mass per length would change if you chose to stretch the rubber band significantly. But this is physics, and that would be a hard problem. I think it is safe to assume that you are still in the "small amplitude oscillation" realm, so you can assume that your m/L is constant.

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