The displacement of a particle is represented by the equation `y=sin^(3)omegat.` The motion is

The displacement of a particle is repersented by the equation y=sin^(3)omegat . The motion is

The displacemtn of a particle is represented by the equation y=3cos((pi)/(4)-2omegat). The motion of the particle is

The displacement of a particle is repersented by the equation y=3cos((pi)/(4)-2omegat) . The motion of the particle is (b) (c) (d)

The displacement of a represnted by the equation y = sin^(2) omega t the motion is

The displacement of a particle is represented by the equation y=0.4{"cos"^(2)((pi t)/(2))-"sin"^(2)((pit)/(2))} metre The motion of the particle is

The displacement of two particles executing SHM are represented by equations, y_(1)=2 sin (10 t + theta), y_(2)=3 cos 10 t . The phase difference between the velocity of these particles is

The displacement of a progressive wave is represented by y = A sin (omegat - kx), where x is distance and t is time. Write the dimensional formula of (i) omega and (ii) k.

The equation of the displacement of two particles making SHM are represented by y_(1) = a sin (omegat +phi) & y_(2) - a cos (omegat) . Phase difference between velocities of two particles is

The diplacement of a particle varies with time according to the relation y=a"sin"omegat+b " cos"omegat .

The displacement of a particle is given by x = cos^(2) omegat. The motion is