A box of mass `m=2 kg` resting on a frictionless horizontal ground is acted upon by a horizontal force F, which varies as shown. Find speed of the particle when force ceases to act.

A body of mass 5kg is acted on by a net force F which varies as shown in the graph. The momentum obtained would

A particle initially at rest on a frictionless horizontal surface, is acted upon by a horizontal force which is constant is size and direction. A graph is plotted between the work done (W) on the particle, against the speed of the particle, (v). If there are no other horizontal forces acting on the particle the graph would look like

A particle initially at rest on a frictionless horizontal surface, is acted upon by a horizontal force which is constant is size and direction. A graph is plotted between the work done (W) on the particle, against the speed of the particle, (v). If there are no other horizontal forces acting on the particle the graph would look like

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

A particle at rest on a frictionless table is acted upon by a horizontal force which is constant in magnitude and direction. A graph is plotted of the work done on the particle W, against the speed of the particle v. If there are no frictional forces acting on the particle, the graph will look like

A particle at rest on a frictionless table is acted upon by a horizontal force which is constant in magnitude and direction. A graph is plotted of the work done on the particle W, against the speed of the particle v. If there are no frictional forces acting on the particle, the graph will look like

A block of mass 2 kg, initially at rest on a horizontal floor, is now acted upon by a horizontal force of 10 N . The coefficient of friction between the block and the floor is 0.2. If g = 10 m//s^(2) , then :