The velocity of sound in air is 333 m/s. the length of the an open pipe, in order to produce second overtone of frequency 999Hz in it, will be

The velocity of sound in air is 333 m//s . The length of an open pipe, in order to produce second overtone of frequency 999 Hz in it, will be

Velocity of sound in air is 332 m//sec . The shortest length of an open pipe which will resonate with a tuning fork of frequency 166Hz is

Velocity of sound in air is 332 m//sec . The shortest length of an open pipe which will resonate with a tuning fork of frequency 166Hz is

If the velocity of sound in air is 336 m/s. The maximum length of a closed pipe that would produce a just audible sound will be

The velocity of sound in air is 330 m//s . Then the frequency that will resonate with an open pipe of length 1m is –

The velocity of sound in air is 320ms^(-1) . An open organ pipe 40 cm long resonates at a frequency of 1200 Hz. Which overtone is it ?

If the velocity of sound in air is 350 m/s . Then the fundamental frequency of an open organ pipe of length 50 cm, will be

Find the rationof the length of a closed pipe to that of an open pipe in order that the second overtone of the former is in unison with fourth overtone of the latter.

Speed of sound is air is 340 m/s. The length of air column is 34 cm. The frequency of 5^(th) overtone of pipe closed at one end is

If the velocity of sound in air at 30^(@)C is 330 m/s. Then the fundamental frequency of a pipe of length 82.5 cm is