For a particle moving on a straight line it is observed that the distance 's' and time 't' is given by `s = 6t -1/2 t^(3)`. The maximum velocity during the motion is

A particle moves along a straight line such that its displacement at any time t is given by x =t^3-6t^2 +3t +4 in m. The velocity when acceleration is zero is

If the displacement s at a time t is given by s = sqrt(1-t) , than the velocity is

A particle moves in a straight line so that , s = sqrtt , then its acceleration is proportional to

A particle moves in a straight line such that its displacement is s^(2)=t^(2)+1 Find. (i) velocity

A particle moves along a straight line OX. At a time (in second) the distance x (in metre) of the particle from "O' is given by : x=40+12t-t^(3) How long particle travels before coming to rest ?

If the displacement of a particle is given by y(t)=A sin (omega t +phi) , then find the maximum velocity of the particle.

A particle moving in straight line cover half the distance with speed 3 ms^-1 . The other half is covered in two equal time intervals with speed 4.5 ms^-1 and 7.5 ms^-1 respectively. The average speed of the particle during motion is

The distance moved by the particle in time t is given by x=t^(3)-12t^(2)+6t+8 At the instant when its acceleration is zero, the velocity is

If a ball is thrown vertically upward and the height 's' reached in time 't' is given by s = 22 t - 11 t^(2) , then the total distance travelled by the ball is