A particle obeys the following v - t graph as shown. The average velocity over 30 s is

For which of the following graphs the average velocity of a particl moving along a straight line for time interval (0,t) must be negative -

For which of the following graphs the average velocity of a particle moving along a straight line for time interval (0,t) must be negative -

The velocity (v) - time (t) graph for a particle moving along x -axis is shown in the figure.The average velocity in the time interval t=0 to t=8s is 1) 4.5m/s 2) 2.5m/s 3) 5m/s 4) 2m/s

The velocity (v) - time (t) graph for a particle moving along x -axis is shown in the figure.The average velocity in the time interval t=0 to t=8s is 1) 4.5m/s 2) 2.5m/s 3) 5m/s 4) 2m/s

A particle moves rectilinearly possessing a parabolic s-t graph. Find the average velocity of the particle over a time interval from t = 1/2 s to t = 1.5 s.

If velocity of a particle is given by v=(2t+3)m//s . Then average velocity in interval 0letle1 s is :

The v-t graph for a particle moving along x-axis is shown in the figure, find (a) Average velocity in the interval 0 to 8 s. (b) Average speed in the interval 0 to 8 s. (c) Average acceleration in the interval 0 to 4 s. (d) Instantaneous acceleration at t = 2.5 s.

Figure shows the graph of x - coordinate of a particle moving along x - axis as a function of time. Average velocity during t = 0 to 6 s and instantaneous velocity at t = 3 s respectively, will be

Figure shows the velocity time graph of a particle moving along straight line (v is m/s and t is in second). It average velocity in 20 seconds will be: .

Acceleration (a)-displacement(s) graph of a particle moving in a straight line is shown here. The initial velocity of the particle is zero. The v-s graph of the particle would be