A glass tube of length `1.5 m` is filled completely with water , the water can be drained out slowly at the bottom of the tube . Find the total number of resonance obtained , when a tuning fork of frequency `606 Hz` is put at the upper open end of the tub

A glass tube of 1.0 m length is filled with water . The water can be drained out slowly at the bottom of the tube . A vibrating tuning fork of frequency 500 Hz is brought at the upper end of the tube and the velocity of sound is 330 m//s . Find the number of resonances that can be obtained.

A glass tube of 1.0 m length is filled with water . The water can be drained out slowly at the bottom of the tube . If a vibrating tuning fork of frequency 500 Hz is brought at the upper end of the tube and the velocity of sound is 300 m//s , then the total number of resonances obtained will be

A glass tube of 1.0 m length is filled with water . The water can be drained out slowly at the bottom of the tube . If a vibrating tuning fork of frequency 500 c//s is brought at the upper end of the tube and the velocity of sound is 330 m//s , then the total number of resonances obtained will be

The glass tube of a resonance tube apparatus is held vertically and the length of the air column in it can be adjusted by adjusting the water level in the tube using a pipe and funnel arrangement. A tuning fork, of frequency v is sounded above the air column in the tube while the length of the air column is slowly increased, starting with a small value. whenever resonance occurs, it is indicated by a loud sound. the two successive lengths at which resonance occurs are l_(1) and l_(2) . find the speed of sound in air and the end correction for this pipe.

If l_1 and l_2 are the lengths of air column for two air column for two consecutive resonance position when a turning fork of frequency f is sounded in a resonance tube, then end correction is :

A uniform tube of length 60 cm stands vertically with its lower end dipping into water . First two air column lengths above water are 15 cm and 45 cm , when the tube responds to a vibrating fork of frequency 500 H_(Z) . Find the lowest frequency to the tube will respond when it is open at both ends.

In a resonance tube experiment, a closed organ pipe of diameter 10 cm and of length 120 cm resonates, when tuned with a tuning fork of frequency 340 Hz. If water is poured into the pipe, then (speed of sound in air 340ms^(-1) ).

A piston is fitted in a cylindrical tube of small cross section with the other end of the tube open. The tube resonates with a tuning fork of frequency 512 Hz. The piston is gradually pulled out of the tube and it is found that a second resonance occurs when the piston is pulled out through a distance of 32.0 cm. Calculate the speed of sound in the air of the tube.

An open pipe of length 2m is dipped in water . To what depth x is to be immersed in water so that it may resonate with a tuning fork of frequency 170 Hz when vibrating in its overtone . Speed of sound in air is 340 m//s

A resonance tube is old and has jagged end. It is still used in the laboratory to determine. Velocity of sound in air. A tuning fork of frequency 512Hz produces first resonance when the tube is filled with wtaer to a mark 11 cm below a reference mark, near the open end of the tube. the experiment is repeated with another fork of frequency 256Hz which produces first resonance when water reaches a mark 27 cm below the reference mark. the velocity of sound in air, obtained in the experiment, is close to :