A pipe of length 1.5 m closed at one end is filled with a gas and it resonates at `30^(@)C` in its fundamental with a tuning fork. Another pipe of the same length but open at both ends and filled with air and it resonates in its fundamental with the same tuning fork. Calculate the velocity of sound at `0^(@)C` in the gas, given that the velocity of sound in air is `360 m s^(-1)` at `30^(@)`.

A pipe of length 1.5m closed at one end is filled with a gas and it resonates in its fundamental with a tuning fork. Another pipe of the same length bur open at both ends is filled with air and it also resonates in its fundamental with the same tuning fork. Calculate the velocity of sound at 0^(@)C in the gas. Given that the velocity of sound in air is 360 m/s at 30^(@)C where the experiment is performed.

A pipe of length 1.5m closed at one end is filled with gas and resonates in its fundamental mode with a tuning fork . Another pipe of same dimension filled with air resonates in its fundamental mode with same tuning fork. If experiment is performed at 30^@ C (speed of sound in air is 360 m/sec) the velocity of sound at 0^@C in gas is

An organ pipe of length L open at both ends is found to vibrate in its first harmonic when sounded with a tuning fork of 480 Hz. What should be the length of a pipe closed at one end, so that it also vibrates in its first harmonic with the same tuning fork ?

An organ pipe of length L open at both ends is found to vibrate in its first harmonic when sounded with a tuning fork of 480 Hz. What should be the length of a pipe closed at one end,so that it also vibrates in its first harmonic with the same tuning fork?

An organ pipe filled with a gas at 27^(@) C resonates at 400 Hz in its fundamental mode. If it is filled with the same gas at 90^(@) C , the resonance frequency will be

A closed pipe 28 cm long is filled with a gas and is in resonance with a tuning fork. If a 42 cm long open pipe filled with air is in unison with the same fork, find the velocity of sound in the gas. (Velocity of sound in air at the temperature = 350 ms^(-1) )

The length of an organ pipe open at both ends is 0.5m in Calculate the fundamental frequency of the pipe, if the velocity of sound in air be 350 ms^-1 ?

An organ pipe of length L open at both ends is found to vibrate in its harmonic when sounded with a tuning fork of 480Hz. What should be the length of a pipe closed at one end, so that it also vibrates in its first harmonic with the same tuning fork?