For the displacement-time graph shown in figure, the ratio of the magnitudes of the speeds during the first two second and the next four second is

The displacement-time graph of a particle is as shown below. It indicates that

What will be ratio of speed in first two seconds to the speed in next 4s

From the velocity time plot shown in figure find the distance travelled by the particle dureing the first 40 seconds. Also find the average velocity during this period.

A particle has a velocity u towards east at t=0 . Its acceleration is towards west and is constant. Let x_A and x_B be the magnitude of displacements in the first 10 seconds and the next 10 seconds

For the velocity - time graph shown in figure below the distance covered by the body in last two seconds of its motion is what fraction of the total distance covered by it in all the total distance covered by it in all the seven seconds

The displacement-time graph of a body is shown in. . The velocity-time graph of the motion of the body will be .

A partial along a straight line whose velocity-displacement graph is as shown in the figure. What is the magnitude of acceleration when displacement is 3 m ?

Velocity -time graph for a body of mass 10 kg is shown in figure. Work -done on the body in first two seconds of the motion is :

A particle has a velocity u towards east at t = 0 . Its acceleration is towards west and is constant. Let x_(A) and x_(B) be the magnitude of displacement in the first 10 seconds and the next 10 seconds:

The displacement (x)-time (t) graph of a particle is shown in figure. Which of the following is correct ?