The diagram shows the variatioin of `1//v` (where `v` is velocity of the particle) with respect to time. At time `t=3s` using the details given in the graph, find the instantaneous acceleration (in `m//s^(2)`)

The diagram shows variation of (1)/(v) with respect to time (where v is in m/s). What is the instantaneous acceleration of body at t=3 sec. (in (m)/(s^(2)) ).

In which of the following velocity (v) - time (1) graphs, the instantaneous acceleration decreases with time?

The velocity of a particle is given by v=(2t^(2)-3t+10)ms^(-1) . Find the instantaneous acceleration at t = 5 s.

The velocity of a particle at an instant "t" is v=u+at ,where u is initial velocity and a is constant acceleration.The v -t graph are

A particle move with velocity v_(1) for time t_(1) and v_(2) for time t_(2) along a straight line. The magntidue of its average acceleration is

Following are three equations of motion S(g)=ut+(1)/(2)at^(2) v(s)=sqrt(u^(2)+2as) v(t)=u+at Where ,S,u,t,a,v are respectively the displacement ( dependent variable ) , initial ( constant ) , time taken ( independent variable ) , acceleration ( constant ) and final velocity ( dependent variable ) of the particel after time t . Find the displacement of the particle when its velocity becomes 10m//s if acceleration is 5m//s^(2) all through -

If velocity of a particle is given by v=2t^(2)-2 then find the acceleration of particle at t = 2 s.

The velocity in m/s of a particle is proportional to the cube of the time. If the velocity after 2 s is 4m/s, then v is equal to

The velocity of particle at time t is given by the relation v=6t-(t^(2))/(6) . The distance traveled in 3 s is, if s=0 at t=0