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

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 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 tube , v_(sound) = 340 m//s .

In a resonance column the first resonant Iength is 0.16 in using a tuning fork of frequency 512 Hz. If the diameter of the tube is 0.025 m, calculate the velocity of sound ?

Find the number of vibrations made by a tuning fork of frequency 480Hz during the time the sound travels a distance 220m. Velocity of sound =330ms^(-1) .

If a resonance tube is sounded with a tuning fork of frequency 256 Hz, resonance occurs at 35 cm and 105 cm. The velocity of sound is about

A glass tube 1.5 m long and open at both ends, is immersed vertically in a water tank completely. A tuning fork of 660 Hz is vibrated and kept at the upper end of the tube and the tube is gradually raised out of water the total number of resonances heard before the tube comes out of water taking velocity of sound air 330m//s is

Distance travelled by the sound produced by a tuning fork of frequency 50 Hz completing 200 vibrations is, (the velocity of sound in air is 330 m/s)

A closed organ pipe can vibrate at a minimum frequency of 500 Hz. Find the length of the tube. Speed of sound in air = 340 m s^-1 .

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