A force of 15 N acts on body of mass 3 Kg which is initially at rest. What is the amount of work done in the first 20 s?
a) 750 J
b) -750 J
c) 400 J
d) -400 J

A time dependent force F = 6t acts on a particle of mass 1 kg . If the particle starts from rest , the work done by the force during the first 1 sec , will be ……….

When a force acts on a body of mass 0.1 kg, the change in its velocity is 20 cm s^(-1) per second. The magnitude of this force is ..... N

A body of mass 2 kg is rest on a smooth horizontal surface . When a horizontal force of 0.5 N acts on this bofy it is displaced in the direction of the force . Find the work done by the force in 8.0 s .Show that this work is equal to the change in kinetic energy of the body .

A constant force of 1 N is applied on an object. The body displaces 1 m in the direction of the force. Then work done is ……………. J

A constant retarding force of 50 N is applied to a body of mass 20 kg moving initially with a speed of 15 m s^(-1) . How long does the body take to stop ?

An object A of mass 1 kg is projected vertically upward with a speed of 20 m//s . At the same moment another object B of mass 3 kg , which in intially above the object A, is dropped from a height h = 20 m . The two point like objects (A and B) collision and stick to each other. The kinetic energy is K (in J) of the combined mass after collision, find the value of K//25 .

A body of mass 2 kg initially kg intially at rest moves under the action of an applied horizontal force of 7 N on a table with coefficient of kinetic friction = 0.1 Compute the (a) work done by the applied force in 10 s. (b) work done by friction in 10 s . work done by the net force on the body in 10 s. (d) Change in kinetic energy of the body in 10 s and interpret your details .

A point mass of 0.5 kg is moving along x- axis as x=t^(2)+2t , where, x is in meters and t is in seconds. Find the work done (in J) by all the forces acting on the body during the time interval [0,2s] .