Wave Interference: Solving Homework

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The discussion revolves around solving a homework problem related to wave interference, specifically the calculation of the largest possible wavelength of sound emitted by loudspeakers. It clarifies that at point M, the waves are in phase, while at point P, there is a phase difference of π, indicating destructive interference. The key to finding the wavelength involves understanding the path length difference between the two speakers and point P, which is determined to be 4 meters. By applying the formula for wavelength in terms of path length difference, the largest wavelength is calculated to be 8.00 meters. This conclusion resolves the initial confusion regarding the relationship between the distances and the resulting wavelength.
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Homework Statement



[PLAIN]http://img18.imageshack.us/img18/6175/questionn.gif

Homework Equations



The Attempt at a Solution



At M the waves are in phase and at P the waves have exactly (pi) phase difference. M and P are 2.00 m apart. So it would mean that the largest possible wavelength of sound emitted by the loudspeakers would be 2.00*2 = 4.00 m.


But the answer key says 8.00 m.

Thanks,
 
Last edited by a moderator:
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Can you explain why 2*2.00 m is the relevant quantity, i.e. what does it represent?
 
At M, the two waves are in phase. At P, the waves have a pi phase difference. The period is 2pi. So to hear the sound at max again, he would have to travel 2 more meters. So, from M to P is only have the wavelength (from crest to trough). To get the full wavelength, I multiplied by 2.
 
OK, that's not quite right. Interference is caused by differences in path length. What's the difference between the distance from one speaker to point P and the distance from the other speaker to P?
 
It doesn't tell you the from one speaker to point P and the distance from the other speaker to P. It just says the distance from M (2m). And at M, there is constructive interference and at P, there is destructive interference.

There is a formula in my book.

[PLAIN]http://img151.imageshack.us/img151/3535/hintg.jpg

I'm not exactly sure what to do...
 
Last edited by a moderator:
Say the distance from the speakers to point M is equal to x. In terms of x, what are the distance between point P and the speaker to the left and the distance between point P and the speaker to the right?
 
vela said:
Say the distance from the speakers to point M is equal to x. In terms of x, what are the distance between point P and the speaker to the left and the distance between point P and the speaker to the right?


Let x = distance from M to the speakers

From P to Left Speaker
d_{1} = x + 2

From P to Right Speaker
d_{2} = x - 2

d_{1} - d_{2} = (x+2) - (x-2)
d_{1} - d_{2} = 0x + 4 = 4
4 = (n+\frac{1}{2}) \lambda

Let n = 0 to get largest wavelength
4 = \frac{1}{2} \lambda
8 = \lambda

Therefore, 8.00 m is the largest wavelength.

Wow, that makes more sense now. Thanks a lot!
 
Perfect! Good job.
 

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