A glass tube of 1.0 m length is filled w...

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.

Similar Questions

Explore conceptually related problems

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 length 1m is filled with water . The water can be drained out slowly at the bottom of the tube . If a vibrating tuning fork of frequency 250Hz is brought at the upper end of the tube and the velocity of sound is 330 m/s , then the total number of resonance 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 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 . 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.

Similar Questions

Recommended Questions