The initial velocity of a particle is u and the acceleration is given by (kt), where k is a positive constant. The distance travelled in time t is:

The intial velocity of a particle is u (at t=0) and the acceleration is given by f=at. Which of the following relations is valid ?

The velocity v of a particle at time t is given by v=at+b/(t+c) , where a, b and c are constants. The dimensions of a, b, c are respectively :-

The velocity v of a particle at time t is given by v=at+b/(t+c) , where a, b and c are constants. The dimensions of a, b, c are respectively :-

The velocity v of a particle at time t is given by v=at+b/(t+c) , where a, b and c are constants. The dimensions of a, b, c are respectively :-

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:-

Velocity of a particle at time t is given by v=at+(b)/(t+c)a,b , care constant. The dimension of a b, c will be ......

The velocity of a particle moving in the positive direction of the x axis varies as v=alphasqrtx , where alpha is a positive constant. Assuming that at the moment t=0 the particle was located at the point x=0 , find: (a) the time dependence of the velocity and the acceleration of the particle, (b) the mean velocity of the particle averaged over the time that the particle takes to cover the first s metres of the path.

A point moves in a straight line under the retardation av^(2) , where 'a' is a positive constant and v is speed. If the initial speed is u , the distance covered in 't' seconds is :

Velocity time graph for a particle moving in a line is given. Calculate the displacement of the particle and distance travelled in first 4 seconds.