In an open end organ pipe of length `l` if the speed of sound is `V` then the fundamental frequency will be

When a closed organ pipe of length l if the velocity of sound is v then the fundamental frequency will be

The frequency of an open organ pipe is n. If one of its ends is closed then its fundamental frequency will be –

An open organ pipe of length is 50 cm, if the velocity of sound in air is 320m/s , then the frequency of its fundamental note will be

The lengths of an open organ pipe is twice the length of another closed organ pipe. The fundamental frequency of the open pipe is 100 Hz. The freqeuncy of the third harmonic of the closed pipe is

The first overtone of an open organ pipe(of length L_(0) ) beats with the first overtone of a closed organ pipe(of length L_(c) ) with a beat frequency of 10Hz.The fundamental frequency of the closed pipe is 110Hz .If the speed of sound is 330ms then fundamental frequency of open pipe is ?

The frequency of fundamental tone in an open organ pipe of length 0.48 m is 320 Hz. Speed of sound is 320 m/sec. Frequency of fundamental tone in closed organ pipe will be

For an open organ pipe of length l the wavelength of the fundamental note is equal to-

A source approaching with speed u towards the open end of a stationary pipe of length L is emitting a sound of frequency f_s . The farther end of the pipe is closed. The speed of sound in air is v anf f_0 is the fundamental frequency of the pipe. For which of the following combination of u and f_s will the sound reaching the pipe lead to a resistance.

In an organ pipe of length L open at both ends, the fundamental mode has a frequency (where v is a speed of sound in air)