Two identical tuning forks vibrating at ...

Two identical tuning forks vibrating at the same frequency 256 Hz are kept fixed at some distance apart. A listener runs between the forks at a speed of `3.0 m s^-1` so that he approaches one tuning-fork and recedes from the other. find the beat frequency bserved by the listener. Speed of sound in air `= 332 m s^-1`.
.

Similar Questions

Explore conceptually related problems

Two tuning forks A and B are vibrating at the same frequency 256 Hz. A listener is standing midway between the forks. If both tuning forks move to the right with a velocity of 5(m)/(s) , find the number of beats heard per second by the listerner (speed of sound in air is 330(m)/(s) ).

Figure shows a person standing somewhere in between two identical tunning forks, each vibrating at 512 Hz. If both the tuning forks move towards right at a speed of 5.5 ms^-1 , find the number of beats heard by the listener. Speed of sound in air =330 ms^-1 .

With what velocity should you approach tuning fork of frequency 256 Hz so that the apparent frequency is 512 Hz. Velocity of sound in air is 340 m/s

How far does sound travel in air when a tuning fork of frequency 560 Hz makes 30 vibrations ? Speed of sound in air = 336 m//s .

Two tuning forks A and B having a frequency of 500 Hz each are placed with B to the right of A. An observer in between the forks in moving towards B with a speed of 25 m/s. The speed of sound is 345 m/s and the wind speed is 5 m/s from A to B. Calculate the difference in the two frequencies heard by observer.

A tuning fork having frequency 256 Hz emits a wave which has a wavelength of 1.35 m . Find the speed of sound in air.

A tuning fork is vibrating at frequency 100 Hz . When another tuning fork is sounded simutaneously.=, 4 beats per second are heard. When some mass is added to the tuning fork of 100 Hz , beat frequency decreases. Find the frequency of the other tuning fork.

A tuning fork is vibrating at 250 Hz. The length of the shortest closed organ pipe that will resonate with the tuning fork will be (Take speed of sound in air as 340 ms^( -1) )

Similar Questions

Recommended Questions