The first overtone of an open organ pipe beats with the first overtone of a closed organ pipe with a beat frequency `2.2 Hz` . The fundamental frequency of the closed organ pipe is `110 Hz`, find the lengths of the pipes . Take velocity of sound ` = 330 m//s`.

The first overtone of an open orgen pipe beats with the first ouertone of a closed orgen pipe with a beat frequency of 2.2 H_(Z) . The fundamental frequency of the closed organ pipe is 110 H_(Z) . Find the lengths of the pipes . Speed of sound in air u = 330 m//s .

The fundamental frequency of a vibrating organ pipe is 200 Hz.

The first overtone in a closed pipe has a frequency

The first overtone of an open pipe has frequency n. The first ovetone of a closed pipe of the same length will have frequency

The first overtone frequency of a closed organ pipe P_1 is equal to the fundamental frequency of an open organ pipe P_2 . If the length of the pipe P_1 is 30 cm, what will be the length of P_2 ?

The 4^(th) overtone of an open organ pipe resonates with the first overtone of semi-open organ pipe. The ration of the length of the open pipe to the semi-open pipe is

Calculate the frequency of fifth harmonic of a closed organ pipe of length 50cm, if the velocity of sound in air is 330 m/s.

Calculate the frequency of fifth harmonic of a closed organ pipe of length 50cm, if the velocity of sound in air is 330 m/s.

The second overtone of an open organ pipe has the same frequency as the first overtone of a closed pipe L metre long. The length of the open pipe will be

Fundamental frequency of a closed of a pipe is 100 and that of an open pipe is 200 Hz. Match following (V_(s) = 330m//s)