In the given velocity `v//s` position graph find acceleration at x = 2m

Velocity v/s position graph of a body performing SHM is

With the help of the given velocity - time graph, find the (i) displacement in first three seconds and (ii) acceleration for the graph.

The velocity of a body moving in a straight line is given by v=(3x^(2)+x)m//s . Find acceleration at x=2m .

For given velocity time graphs in which case the acceleration is uniform and positive -

Acceleration of particle moving in straight line can be written as a=(dv)/(dt)=v(dv)/(dx) . From the given graph find acceleration at x=20 m .

Two particles are moving along x-axis. Particle-1 starts from x=-10 m with velocity 4 m//s along negative x-direction and acceleration 2 m//s^2 along positive x-direction. Particle-2 starts from x=+2 m with velocity 6 m//s along positive x-direction and acceleration 2 m//s^2 along negative x-direction. (a) Find the time when they collide. (b) Find the x-coordinates where they collide. Both start simultaneously.

A particle is moving with initial velocity 1m/s and acceleration a=(4t+3)m/s^(2) . Find velocity of particle at t=2sec .

The velocity –position graph of a particle moving along a straight line is shown. Then acceleration of the particle at s = 15 m is :

In S.H.M., the velocity of the particle at the mean position is 1 m/s and acceleration at the extremity is 2 m//s^(2) , the period of motion is