If a force F can stop the moving body of mass m and velocity u in a distance s, then the force required for stopping body of twice mass, moving with half velocity in the same distance would be

What force is required to move a body of mass 1kg with a uniform velocity of 1m//s ?

If a body is moving with constant velocity, then what is the force applied F on the body of mass M?

A constant force F acts for 1 sec, on a body of mass 1kg moving with perpendicular to its initial velocity, then

The minimum stopping distance of a car moving with velocity u is x . If the car is moving with velocity 2v, then the minimum stopping distance will be.

A scooter of mass 150 kg is moving with a uniform velocity of 108 km/h. Then the force required to stop he vehicle in 10s is

A scooter of mass 120 kg is moving with a uniform velocity of 108 km/h. The force required to stop of the scooter in 10s is

A body of mass m moving with velocity 3km//h collides with a body of mass 2m at rest. Now, the coalesced mass starts to move with a velocity

A car moving with a velocity v is stopped within a distance x by applying a retarding force F. If the speed of the car is doubled, then the force required to stop the car with the same distance is