Maximizing Sound Output from a Tube with Frequency of 444Hz

AI Thread Summary
The discussion focuses on maximizing sound output from a tube with a frequency of 444Hz, addressing the conditions for constructive and destructive interference. Participants explore the relationship between the tube's radius (R) and the sound path lengths, emphasizing that the length of the curve is πR and the straight path is 2R. The key equations involve the frequency and wavelength, with a specific interest in how these relate to sound intensity at different points in the tube. The conversation highlights the confusion around the problem and the eventual realization of the interference conditions necessary for maximizing or minimizing sound output. Understanding these principles is crucial for solving the problem effectively.
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Sound waves move from the left(R) to right(L) from a tube.
In the tube, the sound waves are split into 2 w/ radius R (half circled shaped)
a) if sound emitted has a freq of 444Hz, what is the min value of R that will lead to max L?
b) what is the smallest R leads to min sound at L?

Homework Statement


freq. of 444Hz


Homework Equations


f=(mv)/2L
lambda=V/freq



The Attempt at a Solution


I tried using the first eqn to solve for L, then using the 2nd solving for lambda and thinking it would be one of the two. but I am completely lost now.
I dun get this question at all...

Max sound is constructive.. soo...
attached is the picture w/ the Question
 

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i really need hints please =s

i have a midterm on this this week =s
 
Yes - this would be a problem of max (constructive) and min (destructive) interference.

The length of the curve is \piR, and one has find the R such that the sounds add or cancel each other. The straight path has a length 2R.

What is the condition for interference with respect to difference between the two lengths, i.e. when is interference constructive/destructive?

lambda=V/freq is correct - so what is the wavelength of a 440 Hz wave?

Here is a reference - http://hyperphysics.phy-astr.gsu.edu/hbase/sound/interf.html
 
Last edited:
ah I see
Thanks. i figured it out soon afterwards.

i thought we didnt learn that section. so i tried to solve it bying the phase eqn for construction and destruction waves x_x

THANKS.
 
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