A horizontal circular loop carries a current that looks clockwise when viewed from above. It is replaced by an equivalent magnetic dipole consisting of a south pole `S` and a north pole `N`.

A horizontal circular loop carries a current that looks anticlockwise then viewed from above. It is replaced by an equivalent magnetic dipole NS, which of the following is true?

A circular loop carrying a current is replaced by an equivalent magnetic dipole. A point on the loop is in

A circular loop carrying a current is replaced by an equivalent magnetic dipole. A point on the axis of the loop is in

If a circular coil area A,number of turns n carries a current I then it is equivalent to a magnetic dipole.The magnetic moment of a coil is,

When a current in a circular loop is equivalently replaced by a magnetic dipole.

Compare the direction of the magnetic field inside a solenoid with that of the field there if the solenoid is replaced by its equivalent combination of north pole and south pole.

Magnetic induction at the center of a circular loop carrying a current is 'B' . If 'A' is the area of the coil, the magnetic dipole moment of the loop is

A horizontal wire carries a current as shown as shown in Figure below between magnetic poles N and S : Is the direction of the force on the wire due to the magnet :

Sketch the magnetic field lines for a current-carrying circular loop near its centre. Replace the loop by an equivalent magnetic dipole and sketch the magnetic field lines near the centre of the dipole. Identify the difference.