Fig. shows the graph of velocity versus time for a partice going along the x-axis. Find (a) acceleration, (b) the distance traveled in `0 to 10 s` and (c) the displacement in `0` to `10 s.`

Fig. shows the graph of velocity versus time for a particle going along the x-axis. Find (a) acceleration, (b) the distance traveled in 0 to 10 s and (c) the displacement in 0 to 10 s.

figure shows the graph of velocity versus tie for a particle going along the X-axis. Find a. the acceleration, b. The distance travelled in 0 to 10 s and c. the displacement in 0 to 10 s.

figure shows the graph of velocity versus tie for a particle going along the X-axis. Find a. the acceleration, b. The distance travelled in 0 to 10 s and c. the displacement in 0 to 10 s.

Figure shows the graph of velocity versus time for a particle going along x axis. Initially at t = 0, particle is at x = 3m. Find position of particle at t = 2s. (in m)

Figures shows the displacement-time graph of a particle moving along x-axis.

Fig. shows the graph of the x-coordinate of a particle going along the x-axis as a function of time. Find (a) the average velocity during 0 to 10 s, (b) instantaneous velocity at 2, 5, 8 and 12s.

Fig. shows the graph of the x-coordinate of a particle going along the x-axis as a function of time. Find (a) the average velocity during 0 to 10 s, (b) instantaneous velocity at 2, 5, 8 and 12s.

Figure shows the graph of the x-coordinaste of a particle going along the X-axis as a function of time.Find a. te average velocity during 0 to 10s, b. instantaneous velocity at 2,5,8 and 12s.

Figure shows the graph of the x-coordinaste of a particle going along the X-axis as a function of time.Find a. te average velocity during 0 to 10s, b. instantaneous velocity at 2,5,8 and 12s.

Fig. 3.39 shows the acceleration - time graph for a particle in rectilinear motion. Find the average acceleration in first 20 s.