The acceleration time graph of a particle is shown in the Fig. 2 (CF). 11. At time ` t= 10 s` is the particle is ` 8 ms^(-1)`. Its velocity ` t= 10 s` is.
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The acceleration time graph of a particle is shown in the Fig. 2 (CF). 11. At time t= 0 s velocity of the particle is 8 ms^(-1) . Its velocity t= 10 s is. .

The acceleration time graph of a particle is shown in the figure-1.140. What is the velocity of particle at t=8s, if initial velocity of particle is 3 m/s? (Assume motion is 1 dimension) :

The acceleration-time graph of a particle moving along x-axis is shown in the figure. If the particle starts with velocity 3 m/s at t = 0, find the velocity of particle at t = 4 s.

The acceleration-time graph of a particle moving along x-axis is shown in the figure. If the particle starts with velocity 3 m/s at t = 0, find the velocity of particle at t = 4 s.

The acceleration - time graph for a particle moving along x - axis is shown in figure, If the initial velocity of particle is -5m//s , the velocity at t = 8 s is

The acceleration - time graph for a particle moving along x - axis is shown in figure, If the initial velocity of particle is -5m//s , the velocity at t = 8 s is

The speed-time graph of a particle moving along a fixed direction is shown in the Fig. 2 (CF) . 15. The distance traversed by the particle between t= 2 s 6 s is . .

Acceleration - time graph of a particle moving in a straight line is shown in figure. Velocity of particle at time t = 0 is 2 ms^(-1) . Find velocity at the end of fourth second.

Acceleration - time graph of a particle moving in a straight line is shown in figure. Velocity of particle at time t = 0 is 2 ms^(-1) . Find velocity at the end of fourth second.

The speed-time graph of a particle moving along a fixed direction is shown in the Fig. 2 (CF) . 15. The distance traversed by the particle between t= 2 s and 6 s is . .