The displacement of a particle as a function of time is shown in the figure. The figure shows that

The displacement of a particle as a function of time is shown in . It indicates .

A transverse sinusoidal wave of wavelength 20 cm is moving along a string towards increasing x. The transverse displacement of the string particle at as a function of time is shown in Figure. The equation of the wave with all the constants evaluated is:

A transverse sinusoidal wave of wavelength 20 cm is moving along a string towards increasing x. the transverse displacement of the string particle at x=0 as a function of time is shown in figure. Q. The velocity of propagation of the wave is ?

The displacement-time graph of a particle executing SHM is as shown in the figure. The corresponding force-time graph of the particle is (a)

The displacement-time graphs of two particles P and Q are as shown in the figure. The ratio of their velocities V_P and V_Q will be

The displacement time graph of a particle executing S.H.M as shown in the figure. The corresponding force-time graph of the partical will be

Graph of velocity versus displacement of a particle moving in a straight line is as shown in figure. The acceleration of the particle is.

The acceleration-displacement graph of a particle executing simple harmonic motion is shown in the figure. The frequency of oscillation is

Acceleration displacement (a-x) graph of a particle executing S.H.M. is shown in the figure. The frequency of oscillation is (tan theta =8)

Figure shows the displacement of a particle going along the X-axis as a function of time. The force acting on the particle is zero in the region