How Does Temperature Affect Beat Frequency in Organ Pipes?

AI Thread Summary
The discussion centers on calculating the beat frequency of two organ pipes located at different temperatures. Both pipes have a fundamental frequency of 264.00 Hz at 20.0°C, but the rear pipe is at 25.0°C, affecting the speed of sound in the air. The participant is uncertain whether to treat the pipes as closed or open at one end, which complicates the calculations. They recognize that the temperature difference will alter the frequency of the rear pipe due to changes in the speed of sound. A formula relating the speed of sound to temperature is necessary to find the correct beat frequency.
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Homework Statement



Chapter 12, problem 34. An auditorium has organ pipes at the front and at the rear of the
hall. Two identical pipes, one at the front and one at the back, have fundamental frequencies
of 264.00 Hz at 20.0°C. During a performance, the organ pipes at the back of the hall are at
25.0°C, while those at the front are still at 20.0°C. What is the beat frequency when the two
pipes sound simultaneously? Use 3 significant figures.



The Attempt at a Solution



Basically, I am not sure whether to assume the organ pipes are closed at one end, and open at the other, or open at both ends. My textbook says it can be both...

Anyways, what I was going to do was just take a ratio of the frequencies.

f1 / f2 = (n1*v1/4L) / (n2*v2/4L)

The only problem here is I have 2 unknowns. I don't know n2 or f2..
 
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I think you would use n1 = n2 = 1 since it mentions fundamental frequency.
Do you understand why the pipe at the back would have a different frequency due to the higher temperature there?

The temperature affects the speed of sound in the air inside the pipe, so v2 will be different from v1. You will need a formula that tells how the speed of sound varies with temperature.
 

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