Find the fundamental frequency of a closed pipe, if the length of the air column is 42 m . (speed of sound in air = 332 m/sec )

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 .

An air column in a pipe which is closed at one end will be in resonance with a vibrating tuning fork of frequency 264 Hz if the length of the air column in cm is (Speed of sound in air = 340 m/s)

Calculate the fundamental frequency of an organ pipe, of length 0.8 m open at both ends if the velocity of sound in air is 330 m/s. What will be the fundamental frequency if one end of the pipe is closed ?

An air column in a pipe, which is closed at one end, will be in resonance with a tuning fork of frequency 200 Hz, if the length of the air column is [ velocity of sound in air = 320 m/s]

The second overtone of an open pipe beats with the seconds overtone of a closed pipe with a beat frequency of 3.2 Hz. If the fundamental frequency of closed organ pipe is 120 Hz, calculate the lengths of the pipes. Take, Velocity of sound in air = 320 m/s

What is the fundamental frequency of an open organ pipe of length 42.5 cm, if the velocity of sound in air is 340 m/s?

In a resonance tube experiment t determine the speed of sound in air, a pipe of diameter 5 cm is used. The air column in pipe resonates with a tuning fork of frequency 480 Hz when the minimum length of the air column is 16 cm . If the speed of sound in air at room temperature = 6eta (in m//sec ). Find eta

The fundamental frequency of a closed pipe is 220 H_(Z) . (a) Find the length of this pipe. (b) The second overtone of this pipe has the same frequency as the third harmonic of an open pipe. Find the length of this open pipe. Take speed of sound in air 345 m//s .