Two waves, whose equations are
`y_(1)=4sin(20t-(x)/(3))m and y_(2)=3sin(20t-(x)/(3))` m,
are superposed in a medium. Now,

The waves, whose equations are y_(1)=4xx10^(-3)sin(308pix-(x)/(50)) and y_(2)=1xx10^(-3)sin(302pit-(x)/(50)) ar superposed in a medium. Now,

When two progressive waves y_(1) = 4 sin (2x - 6t) and y_(2) = 3 sin (2x - 6t - (pi)/(2)) are superimposed, the amplitude of the resultant wave is

Two waves represented by y_(i)=3sin(200x-150t) and y_(2)=3cos(200x-150t) are superposed where x and y are in metre and t is in second. Calculate the amplitude of resultant wave

The equation of displacement of two waves are given as y_(1)=10sin(3 pi t+(pi)/(3)) , y_(2)=10sin(3 pi t+(pi)/(3)) .Then what is the ratio of their amplitudes

Two waves travelling in opposite directions produce a standing wave . The individual wave functions are given by y_(1) = 4 sin ( 3x - 2 t) and y_(2) = 4 sin ( 3x + 2 t) cm , where x and y are in cm

If two waves represented by y_(1)=4 sin omega t and y_(2)=3sin (omega t+(pi)/(3)) interfere at a point, the amplitude of the resulting wave will be about

If two sound waves, y_(1) = 0.3 sin 596 pi[t - x//300] and y_(2) = 0.5 sin 604 pi [t - x//330] are superimposed, what will be the (a) frequencyof resultant wave

y_(t)=2sin3pit y_(2)=2sin(3pit-(pi)/(8)) The wave velocity is