A stationary observer receives sound waves from tow tuning forks, one of which approaches and the other recedes with the same velocity. As this takes place, the observer hears beats of frequency `upsilon=2Hz`. Find the velocity of each tuning fork if their oscillation frequency is `upsilon_0=680Hz` and the velocity of sound in air is `upsilon_s=340(m)/(s)`.

A stationary observer receives sonic oscillations from two tuning forks one of which approaches and the other recedes with the same velocity. As this takes place, the observer hears the beats of frequency f = 2.0 H_(Z) . Find the velocity of each tuning fork if their oscillation frequency is f_(o) = 680 H_(Z) and the velocity of sound in air is upsilon = 340 m//s .

A stationary observer receives sonic oscillations from two tuning forks one of which approaches and the other recedes with the same velocity. As this takes place, the observer hears the beats of frequency f = 2.0 H_(Z) . Find the velocity of each tuning fork if their oscillation frequency is f_(o) = 680 H_(Z) and the velocity of sound in air is upsilon = 340 m//s .

A stationary observer receives sound from two indentical tuning forks, one of which approaches and the other one recedes with the same speex (much less than the speed of sound). The observer hears 2 beats/ sec. The oscillation frequency of each tuning fork is v_(0)=1400 Hz and the velocity of sound in air is 350 m/s. The speed of each tuning fork is close to :

A stationary observer receives sound from two identical tuning forks, one of which approaches and the other one recedes with the same speed (much less than the speed of sound). The observer hears 2 beats/ sec. The oscillation frequency of each tuning fork is v_(0)=1400 Hz and the velocity of sound in air is 350 m/s. The speed of each tuning fork is close to :

A stationary observer receives sound from two identical tuning forks, one of which approaches and the other one receded with the same speed (much less than the speed of sound). The observer hears 2 beats/sec. The oscillation frequency of each tuning fork is v_(0)= 1400Hz and the velocity of sound in air is 350m/s. The speed of each tuning fork is close to

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

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)

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 tuning fork of frequency 90 is sounded and moved towards an observer with a velocity of sound, the note heard by the observer