Statement I : For a charged particle moving form point P to point Q, the net work done by an electrostatic field on the particle is independent of the path connecting points P and Q.
Statement II : The net work done by a conservative force on an object moving along a closed loop is zero.

The electric potential at point A is 20 V and at B is -40v . Work done by an external force in moving an electron slowly from B to A.

Define conservative force . Show that the work done around a closed path in a conservative force field is zero .

Statement I: Work done by constant force is equal to magnitude of force multiplied by displacement . Statement II: Work done is scalar quantity. It may be positive, negative or zero.

Statement : I A charged particle moves perpendicular to a magnetic field. Its kinetic energy remains constant, but momentum changes. Statement II : A magnetic force acts on the charged particle.

Statement I: If a particle of mass m is connected to a light rod and whirled in a vertical circle of radius R, then to complete the circle, the minimum velocity of the particle at the lowest point is sqrt(5gR) . Statement II: Mechanical energy is conserved and for the minimum velocity at the lowest point, the velocity at the highest point will be zero.

A planet in elliptical orbit around a star moves form the point in its orbit furthest from the star to the closest point. The work done by the force of gravity during this movement is

Define conservative force. Show that the work done around a closed path in a conservative force field is zero.

A particle moves from a points vecr_1=hati+2hatj in metre to another point vecr_2=2hati+4hatj in metre under the action of a force vecF=2hati+3hatj in newton. Find the work done by the force on the particle in the displacement.