Two sources of sound of intensity I and 4I are used in an interference of sound experiment. Then the intensity of sound at a point where the waves from the two sources superimpose with a phase difference of `(pi /2) rad` is

At a place due to beats obtained from two sources of sound

If two sound waves of equal intensity I produce beats, then the maximum intensity of sound produced in beats will be

Two coherent sources, whose intensity ratio are 81:1 , produce interference fringes. Calculate the ratio of intensities of maxima and minima in the fringe system.

A simple harmonic progressive wave is represented by y= A sin (100pi t +3x) .The distance between two points on the wave at a phase difference of (pi)/(3) radian is

When two sound waves are superimposed, beats are produced when they have

Two sources of sound are separated by a distance 4 m. They both emit sound with the same amplitude and frequency (330 Hz), but they are 180^@ out of phase. At what points between the two sources, will the sound intensity be maximum?

Two sources of sound produce waves differing in wavelength by 12 cm. If the frequencies of the sound are 320 Hz and 360 Hz, calculate the velocity of sound in air.

A car is moving with a speed of 72 km-hour^(-1) towards a roadside source that enits sound at a frequency of 850 Hz. The car driver listens to the sound while approching the source and again while moving away from the source after crossing it. If the velocity of sound is 340 ms^(-1) , the difference of the two frequencies the driver hears is

Find the ratio of intensities at two points x and y on a screen in Young's double slit experiment, where waves from S_1 and S_2 have path difference of i) 0 and ii) lambda /4 .

Two sources of sound placed close to each other are wmitting progressive waves given by y_1=4sin600pit and y_2=5sin608pit . An observer located near these two sources of sound will hear: