A body is initially at rest. It undergoes one-dimensional motioin with constant acceleration. The power delivered to it at time t is proportional to

A body is initially at rest. It undergoes one dimensional motion with constant acceleration. The power delivered to it at time t is proportional to

A body is initially at rest. It undergoes one dimensional motion with constant acceleration. The power delivered to it at time t is proportional to

A body is initially at rest. It undergoes one-dimensional motion with constant acceleration. The power delivered to it at time t is proportional to (i) t^(1//2) (ii) t (iii) t^(3//2) (iv) t^(2)

A body initially at rest travels a distance 100 m in 5 s with a constant acceleration. Calculate : (i) the acceleration, and (ii) the final velocity at the end of 5 S.

A body starts from rest and acquires velocity V in time T . The instantaneous power delivered to the body in time 't' proportional to

A body, initially at rest, starts moving with a constant acceleration 2 ms^(-2) . Calculate : (i) the velocity acquired and (ii) the distance travelled in 5 s.

A particle starting from rest undergoes a rectilinear motion with acceleration a. The variation of a with time t is shown below. The maximum velocity attained by the particle during its motion is

A motor drives a body along a straight line with a constant force. The power P developed by the motor must vary with time t as

A body is moving undirectionally under the influence of a source of constatn power. It displacement in time t is proportional to (i) t^(1//2) (ii) t (iii) t^(3//2) (iv) t^(2)

A body starts from rest and moves with constant acceleration. The ratio of distance covered by the body in nth second to that covered in n second is.