If the superpositions of two SHM is given by `x_1=A_1" "cos(omega_1t)" and "x_2=A_2" cos "(omega_2t+delta_2)` along X-axis, identify the wrong option

The equation of simple harmonic motion of two particle is x_1=A_1" "sin" "omegat and x_2=A_2" "sin(omegat+prop) . If they superimpose, then the amplitude of the resultant S.H.M. will be

when two displacements represented by y_(1) = a sin(omega t) and y_(2) = b cos (omega t) are superimposed the motion is

Equations of two progressive waves at a certain point in a medium are given by, y_1 =a_1 sin ( omega t+phi _1) and y_ 1 =a_2 sin (omegat+ phi _2) If amplitude and time period of resultant wave formed by the superposition of these two waves is same as that of both the waves,then phi _ 1-phi _2 is

Find the amplitude of the resultant wave produced due to interference of two waves given as, y_1 =A_1 sin (omega)t y_2 = A_2 sin [ (omega)t + (phi) ]

Two waves y_(1) =A_(1) sin (omega t - beta _(1)), y_(2)=A_(2) sin (omega t - beta_(2) Superimpose to form a resultant wave whose amplitude is

Two waves are represented by y_(1)= a sin (omega t + ( pi)/(6)) and y_(2) = a cos omega t . What will be their resultant amplitude

The path difference between the two waves y_(1)=a_(1) sin(omega t-(2pi x)/(lambda)) and y(2)=a_(2) cos(omega t-(2pi x)/(lambda)+phi) is

The displacement of two identical particles executing SHM are represented by equations x_(1) = 4 sin (10t+(pi)/(6)) & x_(2) = 5 cos (omegat) For what value of w , energy of both the particles is same.

The displacement of a particle along the x-axis is given by x = a sin^(2) omega t . The motion of the particle corresponds to

The stationary wave y = 2a sin kx cos omega t in a closed organ pipe is the result of the superposition of y = a sin (omega t - kx)