A particle accelerating uniformly has velocity v at time `t_1` What is work done in time i?

A body of mass m accelerates uniformly from rest to velocity v_(0) in time t_(0) . What is the instantaneous power delivered to the body when its velocity is (v_(0))/(2) ?

A particle starts from rest and has velocity kt after time t. The distance travelled in time t is-

A body of mass m accelerates uniformly from rest to velocity v_(0) in time t_(0) , find the instantaneous power delivered to body when velocity is (v_(0))/(2) .

A particle moves in a straight line with uniform acceleration. Its velocity at time t=0 is v_1 and at time t=t is v_2. The average velocity of the particle in this time interval is (v_1 + v_2)/2 . Is this statement true or false?

A body starts from rest and acquires a velocity V in a time T.The work done on the body in a time t is proportional to

A body starts from rest and acquires a velocity V in time T .The work done on the body in the time t is proportional to

A body of mass m accelerates uniformly from rest to v_1 in time v_2 . As a function of time t, the instantaneous power delivered to the body is

The velocity time relation of a particle is given by v = (3t^(2) -2t-1) m//s Calculate the position and acceleration of the particle when velocity of the particle is zero . Given the initial position of the particle is 5m .