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 `:`

A body moves in a straight line under the retardation a which is given by a=bv^2 . If the initial velocity is 2 m/s, the distance covered in time t=2 seconds is

A particle moves with an initial velocity V_(0) and retardation alpha v , where alpha is a constant and v is the velocity at any time t. total distance covered by the particle is

If a point moves in a straigth line in such a manner that its retardation is porportional to its speed, the distance covered (x) is associated with speed (v) is -

A particle moves with an initial velocity v_(0) and retardation alpha v , where v is the velocity at any time t.

A particle is moving along a straight line with uniform retardation of 2ms^(-2) The initial speed of particle is 20m/s .The distance travelled by the particle during the last one second before it stops is

A particle moves with an initial velocity V_(0) and retardation alpha v , where alpha is a constant and v is the velocity at any time t. Velocity of particle at time is :

The velocity 'v' of a particle moving along straight line is given in terms of time t as v=3(t^(2)-t) where t is in seconds and v is in m//s . The speed is minimum after t=0 second at instant of time

A particle moves in a straight line with constant acceleration If it covers 10 m in first second and 20 m in next second find its initial velocity.