A body of mass m starts from rest with an acceleration t and gains a velocity V at time T . IF is the power which is given to that body then p=

A body of mass m , starting from rest , moves with constant acceleration . After a time T it attains a velocity V. Show that the work done by the body in time t=1/2 m (V^2)/(T^2)*t^2*

A body of mass 2 kg starts from rest and moves with uniform acceleration . It acquires a velocity 20 m*s^(-1) in 4 s. (i) Power exerted on the body at 2s is

A body of mass 2 kg starts from rest and moves with uniform acceleration . It acquires a velocity 20 m*s^(-1) in 4 s. (ii) Averrage power transferred to the body in first 2 s is

A particle of mass m, moving with a constant acceleration , acquires a velocity v_0 in time t_0 . Initially the particle was at rest. Find the average power and the instaneous power of the applied force.

A particle of mass m accelerating uniformly has velocity v at time t_1 . What is work done in time t?

A body starts from rest and moves with an acceleration proportionaI to time. (i) Find its velocity n s after starting. (ii) What distance will it traveI in n s?

A body is moving from rest with an acceleration a m . s^(-2) which is related to time t s by a = (3t +4) . What will be its velocity in time 2 s?

A body of mass m is moving with constant velocity V on a horizontal surface. What is the force on the table ?

Starting from rest a body moves at first with constant acceleration a. Then it moves with a uniform velocity and finally comes to rest with a constant retardation a. If the displacement is s and time taken is t, prove that the body was in motion with uniform velocity for a time interval of sqrt(t^(2)-4s//a).