The distance travelled by a particle starting from rest and moving with an acceleration `(4)/(3) ms^-2`, in the fifth second is.

The distance travelled by a particle starting from rest and moving with an acceleration (4)/(3) ms^-2 , in the third second is.

The ratio of distances travelled by a body starting from rest with constant acceleration in g^(th) and 8^(th) second is .........

A particle start from rest, with uniform acceleration at time t , choose the correct option

A particle, starting from rest, moves with constant acceleration 4 ms^(-2). The distance travelled by the particle in 5^(th) second is.

A body starts from rest and moves with a uniform acceleration of 10ms^(-2) for 5 seconds. During the next 10 seconds it moves with uniform velocity. Find the total distance travelled by the body (Using graphical analysis).

A car starting from rest, moves some distance with constant acceleration 3 ms^(-2). Then it moves with constant deceleration 2 ms ^(-2) and finally becomes stationary. If the total time taken for the complete journey is 100 s, what was maximum velocity of the car e iu during the journey ?

Block A and C starts from rest and move to the right with acceleration a_(A)=12tms^(-2) and a_(C )=3ms^(-2) . Here t is in second. The time when block B again comes to rest is

The ratio of the distance travelled in the third and fourth second by a particle moving over a straight path with constant acceleration is ......

A particle starts from rest with constant acceleration. The ratio of space-average velocity to the time average velocity is :-

The displacement of a particle starting from rest (at t = 0) is given by s = 6t^(2) - t^(3) . The time in seconds at which the particle will attain zero velocity again, is