Wave Interference with 2 speakers

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Two speakers, 4.0 meters apart, create sound waves that can interfere constructively or destructively depending on the listener's distance and the frequency of the sound. The listener is 25.0 meters from one speaker and 27.0 meters from the other, with sound frequencies ranging from 100 to 500 Hz. The equations for constructive and destructive interference are based on the path difference between the two waves. To solve the problem, the path difference must be converted into frequency terms using the speed of sound, which is 343 m/s. Ultimately, the task is to identify all frequencies within the specified range that meet the conditions for interference.
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Homework Statement


Two speakers located 4.0 m apart. Listener is seated 25.0m from 1 speaker, and 27.0m from the other. We drive the two speakers at a freq. which we sweep from 100 to 500 Hz. If the 2 speakers are in phase, find the frequencies at which the waves constructively/destructively interfere.

Speed of sound = 343 m/s

Homework Equations



x2-x1 = n\lambda (constructive)

x2-x1 = (n+0.5)\lambda (destructive)

lamda = v/f

The Attempt at a Solution



Not sure to be honest where to start since there is a range of frequencies.
 
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exzacklyright said:

Homework Statement


Two speakers located 4.0 m apart. Listener is seated 25.0m from 1 speaker, and 27.0m from the other. We drive the two speakers at a freq. which we sweep from 100 to 500 Hz. If the 2 speakers are in phase, find the frequencies at which the waves constructively/destructively interfere.

Speed of sound = 343 m/s

Homework Equations



x2-x1 = n\lambda (constructive)

x2-x1 = (n+0.5)\lambda (destructive)

lamda = v/f

The Attempt at a Solution



Not sure to be honest where to start since there is a range of frequencies.
Well the first thing to do is convert your two equations from functions of wavelength to frequency.

After you've done that, you just need to find all the frequencies between the two limits that satisfy those equations.
 
Hootenanny said:
Well the first thing to do is convert your two equations from functions of wavelength to frequency.

After you've done that, you just need to find all the frequencies between the two limits that satisfy those equations.

yeah I figured it out. thx.
 

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