The velocity-time relation of an electron starting from rest is given by u = kt, where `k = 2 m//s^(2)`. The distance traversed in 3 sec is:

The velocity-time relation of an electron starting from rest is given by u=kt, where k=2m//s^(2) . The distance traversed in 3 sec is:-

A body starting from rest is moving with a uniform acceleration of 8m/s^(2) . Then the distance travelled by it in 5th second will be

An electron starting from rest has a velocity that increases linearly with the time that is v=kt,where k=2 m//sec^(2) .The distance travelled in the first 6 seconds will be

A body starting from rest has an acceleration of 5m//s^(2) . Calculate the distance travelled by it in 4^(th) second.

The velocity time relation of a particle is given by v = (3t^(2) -2t-1) m//s Calculate the position and acceleration of the particle when velocity of the particle is zero . Given the initial position of the particle is 5m .

A body starts from rest with a uniform acceleration of 2 m s^(-1) . Find the distance covered by the body in 2 s.

A particle starts moving in a straight line from rest with an acceleration ("in"m//s^(2) ) given by : a=12 sqrt x , where x is the distance travelled by the particle (in meters ) The velocity of the particle at the instant when its acceleration is 48m//s ^(2) is .......m//s

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

A particle, initially at rest, starts moving in a straight line with an acceleration a=6t+4 m//s^(2) . The distance covered by it in 3 s is

A body starts from rest and accelerates with 4 "m/s"^2 for 5 seconds. Find the distance travelled with 5 seconds.