An open organ pipe is excited to vibrate in the thid overtone. It is observed that there are

A closed organ pipe is excited to vibrate in the third overtone. If is obertone that there are

A closed organ pipe (closed at one end) is excited to support the third overtone. It is found that air in the pipe has

An open organ pipe is vibrating in its fifth overtone. The distance between two consecutive pionts where pressure amlitude is 1/sqrt 2 times pressure amplitude at pressure antinodes,is 40 cm , then the length of open organ pipe is ( neglect end connection )

If the second overtone of an open organ pipe is in unison with third overtone of closed organ pipe, calculate the ratio of length of open organ pipe with closed pipe.

Calculate the ratio of length of an open organ pipe to closed organ pipe if the third overtone of open pipe is in unison with the fifth overtone of closed pipe.

The air column in a pipe open at both ends vibrates with the frequency of third overtone. It is found that air in th pipe has

A closed organ pipe is vibrating in first overtone and is in resonance with another open organ pipe vibrating in third harmonic. The ratio of lengths of the pipes respectively is

The second overtone of an open organ pipe beats with the third overtone of the closed organ pipe. The beat frequency is 3.3 Hz. What will be the length of pipes if fundamental frequency of closed organ pipe is 120 Hz ? Velocity of sound = 340 m/s

In an open organ pipe, if the fundamental frequency is n, the overtones produced in it are in the ratio of-