The ............. in a bar magnet plays the role, same as that of positive charge in an electric dipole.

Net charge on an electric dipole is ………….. .

Give two properties of electric lines of force. Sketch them for an isolated positive point charge and an electric dipole.

When an electric dipole is kept near a positive charge, it will experience

Distinguish between a magnetic dipole and an electric dipole.

Assertion: An atom of a magnetic material behaves as a dipole because of positive charge on the nucleus. Reason: Charge is responsible for dipole moment.

Assertion: On going away from a point charge or a small electric dipole, electric field decreases at the same rate in both the cases Reason: Electric field is inversly proportional to square of distance from the charge or an electric dipole.

A very small electric dipole with dipole moment p is placed in such in way that it is at a distance r from another point charge +q. The point charge lies on the axis of the dipole . Electric dipole moment is pointing towards the point charge. Determine electric dipole will attract the point charge or repel it ? What will be the magnitude of force between them ?

Consider the following statements about electric dipole and select the correct ones. S_(1) : Electric dipole moment vector vec(p) is directed from the negative charge to the positive charge S_(2) : The electric field of a dipole potential falls off as (1)/(r^(2)) and not as (1)/(r ) S_(3) : The electric field of a dipole at a point with position vector vec(r ) depends on |vec(r )| as well as s angle between vec(r ) and vec(p) S_(4) : In a uniform electric field, the electric dipole experience no net force but a torque

In the figure here a paramagnetic sphere is located near south pole of a bar magnet . The magnetic dipole moment of sphere is