A wave motion has the function `y=a_0sin(omegat0kx)`. The graph in figure shows how the displacement y at a fixed point varies with time t. Which one of the labelled points Shows a displacement equal to that at the position `x=(pi)/(2k)` at time `t=0`?

The displacement r of a particle varies with time as x=4t^(2)-15t+25 Find the position, velocity and acceleration of the particle at t = 0

graphs of the same harmonic wave are shown below. The graph (1) on the left shows the displacement of wave y, as a function of position x for a given instant of time. The graph (2) on the right shows the displacement of wave as a function to time 't' for a given position. The speed of the wave is

Figure shows the displacement tiime (x-t) graph of a body moving in a straight line which one of the graph shown in figure represents the velocity- time (v-t) graph of the motion of the body.

The displacement x of a particle varies with time 't' as, x=3t^(2)-4t+30. Find the position, velocity and acceleration of the particle at t = 0.

The displacement of the wave given by equation y(x, t)=a sin (kx - omega t +phi), where phi=0 at point x and t = 0 is same as that at point

The graphs in fugure show that a quantity Y varies with displacement d in a system undergoing simple harmonic motion. (I) , The time

The diagram shows the displacement - time graph for a particle moving in a straight line. The distance (in m) coverted by the particle in the time interval t=0 to t=5s is

The diagram shows the displacement - time graph for a particle moving in a straight line. The distance (in m) coverted by the particle in the time interval t=0 to t=5s is