A particle moving along straight line has velocity `v=mus^(2)` where s is the displacement.If `S=S_(0)` then which of the following graph best represent s versus t

A particle is moving along a line according s= f(t) = 8t + t^3 . Find the initial velocity

A particle moves along a line by s = t^(3) - 9t^(2) + 24t . Then S is decreasing when t in

A particle is moving along a straight line according to the law s=16+48t-t^3 . The distance travelled by the particle before coming to rest at an instant is

A particle is moving along a striaght line so that t its displacement s from a fixed point on the line is given s=a sin (bt+c) where a,b,c are cosntants. If v and f are the velocity and the acceleration of the particle respectively at time t, prove that (i)v^(2)-fs is a constant (ii) (df)/(ds) is a constant and (ii) s, (df)/(ds)=f .

A particle moving along a straight line has the relation s=t^(3)+2t+3 , connecting the distance s describe by the particle in time t. Find the velocity and acceleration of the particle at t=4 sec.

A particle moving along a straight line has the relation s =t^2 +3, connecting the distance s described by the particle in time 1. Find the velocity and acceleration of the particle at t=4 seconds.

A particle moves along a straight line according to the equation s = 8 cos 2t + 4sint. The initial velocity is