s-t graph of two particles A and B are shown in fig. Find the ratio of velocity of A to velocity of B.

The displacement time graphs of two bodies A and B are shown in figure. The ratio of velocity of A to velocity of B, v_(A)//v_(B) is:

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

s-t graph of a particle in motion is shown in Fig. Calculate Average velocity

The velocity - time graph for two bodies A and B are shown in figure. Then, the acceleration of A and B are in the ratio

s-t graph of a particle in motion is shown in Fig. Calculate Average speed

s-t graph of a particle in motion is shown in Fig. Calculate Displacement

The velocity - time graph of a particle is as shown in figure

velocity-time graph of a particle moving in a straight line is as shown in figure. At time t = 0, velocity of the particle is zero. Find (a) average acceleration in a time interval from t = 6 s to t = 12 s, (b) velocity of the particle at t = 14 s.

The acceleration - velocity graph of a particle moving in a straight line is shown in figure. Then the slope of the velocity- displacement graph

The following figure shows the displacement versus time graph for two particles A and B executing simple harmonic motions. The ratio of their maximum velocities is