A body of mass `m`, accelerates uniformly from rest to `V_(1)` in time `t_(1)`. The instantaneous power delivered to the body as a function of time `t` is.

A body of mass m is acceleratad uniformaly from rest to a speed v in a time T . The instanseous power delivered to the body as a function of time is given by

A body of mass m accelerates uniformly from rest to v_1 in time t_1 . As a function of time t, the instantaneous power delivered to the body is

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

An 8 kg block accelerates uniformly from rest to a velocity of 4 m s^(-1) in 40 second. The instantaneous power at the end of 8 second is P xx 10^(-2) watt. Find the value of P.

An automobile of mass m accelerates from rest. If the engine supplies a constant power P, the velocity at time t is given by -

The position (x) of body moving along x-axis at time (t) is given by x=3f^(2) where x is in matre and t is in second. If mass of body is 2 kg, then find the instantaneous power delivered to body by force acting on it at t=4 s.

A particle of mass 200gm is moving in a circular path of radius 10cm, such that its tangential acceleration varies with time as a_(t) = 6t ( m//s^(2)) . The average power delivered to the particle by force acting on it in the first 10sec is 100K watt. The particle starts from rest. Find K.

Work done in time t on a body of mass m which is accelerated from rest to a speed v in time t_(1) as a function of time t is given by

A body is thrown with a velocity v_0 at an angle theta_0 with horizontal. Find the (a) instantaneous power delivered by gravity after a time t measured from the instant of projection and (b) average power delivered by gravity during the time t.

A body moves under the action of a constant force along a straight line. The instantaneous power developed by this force with time t is correctly represented by.