The equations of two sound waves are given by,` y_1 = 3sin ( 100 pi t ) and y_2 =4sin ( 150 pi t ) `, The ratio of intensites of sound produced in the medium is

Two vibrating tuning fork produce progressive waves given by y_(1) = 4 sin 500 pi t and y_(2) = 2 sin 506 pi t . Number of beats produced per minute is :-

Two sounding bodies producing prograssive waves given by y_1 =4 sin (400 pit ) and y_2 3sin ( 404 pit ) ,are situated very near to the ears of a person.He will hear (Here intensity ratio is between maxima and minima )

Two vibrating tuning forks produce prograssive waves given by y_1 = 4sin 500 pi t , and y_2 =2 sin 506 pi t and are hold near the ear of a person Number of beats head per minute is

The S.H.M.s of two particles are given by y_(1)=10 "sin" [2pi t +(pi)/(6)] " and " y_(2) =5["sin" 2pi t + sqrt(3) "cos" 2 pi t] The ratio of their amplitudes is

The equation of a standing wave is given by y = 0.02 cos (pi)(x) sin (100 (pi) t )m . Find the amplitude of either wave interfering , wavelength , time period, frequency and wave velocity of interfering waves.

The equation of a plane progressive wave is given by, y= 3sin pi (( t)/( 0.02) -(x)/( 20)) .The frequency of the wave is

The equation of a sound wave is y = 0.0015 sin (62.4x + 316 t) The wavelength of this wave is

In an AC circuit, e and i are given by e = 150 sin 150 t V and i = 150 sin (150t+pi/3) A. The 1 power dissipated in the circuit is

Equation of motion in the same direction are given by ltbygt y_(1)=2a sin (omega t-kx) and y_(2)=2a sin (omega t-kx - theta ) The amplitude of the medium particle will be

Two waves represented by the following equations are travelling in the same y_1 = 5 sin 2pi ( 75 t - 0.25x ) and y_2 = 10 sin 2pi ( 150 t - 0.50x ) . The intensity ratio I_1//I_2 of the two waves is