if a particle F is applied on a body and it moves with a velocity v , the power will be

A constant force F is applied to a body of mass m moving with initial velocity u. If after the body undergoes a displacement S its velocity becomes v, then the total work done is

The mass m is placed on a body of mass M. There is no friction. The force F is applied on M on it moves with acceleration a. Then, the force on the top body is

When a constant force is applied to a body moving with constant acceleration, is the power, of the force constant ? If not, how would force have to very with speed for the power to be constant ?

Force acting on a particle of mass m moving in straight line varies with the velocity of the particle as F=K//V K is constant then speed of the particle in time t

A body of mass M moving with velocity V explodes into two equal parts. If one comes to rest and the other body moves with velocity v, what would be the value of v ?

A body of mass 2 kg is moving along x-direction with a velocity of 2 m//sec. If a force of 4 N is applied on it along y-direction for 1 sec, the final velocity of particle willbe-

If the force applied is F and the velocity gained is v, then the power developed is

A particle is moving in a verticle circle. If v_1 is the velocity of particle at highest point and v_2 is the velocity of particle at lowest point , then the relation between v_1 and v_2 is

A particle is moving on a circular path of radius r with uniform velocity v. The change in velocity when the particle moves from P to Q is (anglePOQ=40^@ )