A body of mass 10 kg is moving on a horizonal surface be applying a force of 10 N in the forward direction. The body moves with a constant velocity of `0.2ms^(-1)`. Work done by the force of friction in the first 10 seconds is

A body of mass 5 kg moving on a horizontal surface with a velocity of 10 ms^(-1) comes to rest in 2s. The force required to make this body move with a velocity of 10 ms^(-1) on the same surface is

A block of mass 10 kg is moving on a rough surface as shown in figure. The frictional force acting on block is :-

A body of mass (1)/(4) kg moving with velocity 12 m//s is stopped by applying a force of 0.6 N. Then impulse is :-

A body of mass 2kg moving on a horizontal surface with an initial velocity of 4 ms^(-1) comes to rest after 2 second. If one wants to keep this body moving on the same surface with a velocity of 4 ms^(-1) the force required is

A body of mass 5 kg is moving with a velocity of 20 m/s. If a force of 100 N is applied on it for 10 s in the same direction as its velocity, what will be the velociy of the body ?

A body of mass 25 kg is at rest on a horizontal surface. Minimum horizontal force required to just start motion is 73.5N and a force of 49N is needed to keep the body moving with a constant velocity. What is the coefficient of (i) static friction and (ii) kinetic friction ?

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the magnitude of force applied.

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the final momentum of ball

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the initial momentum of ball

A body of mass 1 kg is rotated in a horizontal circle of radius 1 m and moves with velocity 2 ms^(-1) The work done in 10 revolutions is