A particle starts its motion from the origin in positive x-direction. The given graph shows the variation of acceleration (a) with velocity (v). Plot the corresponding graph between velocity and time.

The velocity-time graph shows the motion of a cyclist. Find (i) its acceleration (ii) its velocity and (iii) the distance covered by the cyclist in 15 seconds.

A particle starts with some initial velocity with an acceleration along the direction of motion. Draw a graph depicting the variation of velocity (v) along y-axis with the variation of displacement(s) along x-axis.

A particle starts from the origin of coordinates at time t = 0 and moves in the xy plane with a constant acceleration alpha in the y-direction. Its equation of motion is y= betax^2 . Its velocity component in the x-direction is

Plot the acceleration-time graph of the welocity-time graph given in. .

A particle is moving in a straight line according to graph given below : (a is acceleration, v is velocity, x is position, t is time) :

A particle starts from the origin at time t = 0 and moves along the positive x-axis. The graph of velocity with respect to time is shown in figure. What is the position of the particle at time t = 5s ?

A particle starts from the origin of coordinates at time t = 0 and moves in the xy plane with a constant acceleration alpha in the y-direction. Its equation of motion is y = beta x^(2) . Its velocity component in the x-directon is

A particle starts to move along a straight line. The acceleration versus time graph of particle is as shown in figure. The correct velocity versus time graph is :

A mass M is performing linear simple harmonic motion. Then correct graph for acceleration a and corresponding linear velocity v is

Acceleration-time graph of a body is shown. The corresponding velocity-time graph of the same body is.