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:-

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

the velcoity -time relation of an electron starting from rest is given by v=kt,where h=2 ms^(-2) .calculate the distance traversed in 3s.

The velocity-time relation of an object starting from rest is given by v=3t . When "v" is in "m/s" and "t" in seconds. The distance traversed in "3" seconds is:

A particle starts from rest and has velocity kt after time t. The distance travelled in time t 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

A body starting from rest and has uniform acceleration 8 m//s^(2) . The distance travelled by it in 5^(th) second 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 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

An electron starting from rest has a velocity that increase linearly with time that is v=k t, wher k=2 m//s^(@) . What will be the distance covered in first 3 seconds of its motion ?