Diffraction of Sound Waves Through Slit

AI Thread Summary
The discussion centers on calculating the angle of diffraction for sound waves passing through a 2m opening in a curtain. The Fraunhofer's Single Slit equation, originally developed for light waves, is considered for application to sound. Participants note that the curtain may not act as a perfect barrier and that sound waves will not behave as ideal plane waves due to reflections and echoes. It is suggested that achieving clear diffraction minima with sound is challenging, and using two speakers with a sine wave may yield better results. Quantifying sound intensity loss as it travels and reflects in a concert hall is acknowledged to require numerical simulations rather than simple formulas.
gex
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Hi there,

I have a scenario in which different frequencies will be played behind a curtain with a 2m opening. I would like to calculate the angle of diffraction for different frequencies played by the piano. One equation that I came across through research is Fraunhofer's Single Slit equation. (http://hyperphysics.phy-astr.gsu.edu/hbase/hframe.html) I am just curious as to whether I can apply this to sound even though it was developed for light waves.

-Thank you in advance.
 
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Formulas apply, yes. Notes:
the curtain probably isn't a 100% barrier...
the waves at the 2 m opening will probably not be all that plane waves
echos and other acoustics will smear out the results
 
Thank you for your response BvU, so to clarify, even though a certain frequency might not diffract far enough to reach a certain point on the concert hall, its reflections off of walls will cause it to eventually reach that point?
 
Yes. In agreement with practical experience, I would say. It takes an effort to achieve minima with sound waves: best bet is two speakers and a sine wave. A curtain with an opening is far from ideal. And a piano is a complicated source. But: experiment ! Who knows.
 
Cool! Thanks a lot for your help BvU, but if you don't mind I have one more question. Is it possible to quantify the loss in sound intensity as it travels to the back of the concert hall and gets reflected back?
 
My estimate is you have to turn to numerical simulations rather soon. Don't think the usual 1/r^2 dependence of spherically expanding waves (i.e. from a point source) is practically useful.
Note that the section on acoustics doesn't even mention diffraction... (but the encompassing sound section does...)
 
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Perfect, thanks a lot for all your help BvU! :wink:
 

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