The potential energy of a partical veries with distance `x` as shown in the graph.

The force acting on the partical is zero at

force F on a partical moving in a straight line veries with distance d as shown in the figure. The work done on the partical during its displacement of 12 m is

If net external force acting on the system is zero then

A force F acting on an object varies with distance x as shown in the figure. The work done by the force in moving the object from x=0 to x = 20 m is

The potential energy of a force filed vec(F) is given by U(x,y)=sin(x+y) . The force acting on the particle of mass m at (0,(pi)/4) is

The kinetic energy of a body moving along a straight line varies with time as shown in figure. The force acting on the body:

The potential energy of the system is represented in the first figure. The force acting on the system will be represented by

The displacement time graph of a particle executing S.H.M as shown in the figure. The corresponding force-time graph of the partical will be

The variation of potential energy U of a system is shown in figure. The force acting on the system is best represented by

A Force F acting on an object varies with distance x as shown in the here . The force is in newton and x in metre. The work done by the force in moving the object from x = 0 to x = 6m is

The net force acting is not zero on