Three sound waves of equal amplitudes have frequencies (v-1), v, (v+1). They superpose to give beats. The number of beast produced per second will be:

Three sound waves of equal amplitudes have frequencies (v - 1), v, (v + 1) . They superpose to give beats. The number of beats produced per second will be :

Three sound waves of equal amplitudes have frequencies (n-1) ,n (n+1) .They superimpose to give beats.The number of beats produced per second will be

Three sound sources A , B and C have frequencies 400 , 401 and 402 H_(Z) , respectively. Cacluated the number of beats noted per second.

Three sound sources p,q and r have frequencies 400 Hz, 401 Hz and 402 Hz respectively. Calculate the number of beats nodes per second.

if three sources of sound of equal intensities and having frequencies 300 Hz , 301 Hz and 302 Hz are sounded together, the number of beats heard is

Two waves of nearly same amplitude , same frequency travelling with same velocity are superimposing to give phenomenon of interference . If a_(1) and a_(2) be their respectively amplitudes , omega be the frequency for both , v be the velocity for both and Delta phi is the phase difference between the two waves then ,

Two waves of same amplitude a and frequency v and having a phase difference of pi//2 radian, are superposed. The amplitude of resultant wave is

A tuning fork produces 4 beats per second when sounded togetehr with a fork of frequency 364 Hz. When the first fork is loaded with a little wax ten the number of beats becomes two per second. What is the frequency of the first fork?

Two open pipes of length L are vibrated simultaneously. If length of one of the pipes is reduced by y. then the number of beats heats per second will be if the velocity of sound is v and y lt lt L :-

Beats are produced by two waves y_(1) = a sin 2000 pi t and y_(2) = a sin 2008 pi t The number of beats heard per second is