A bar magnet was pulled away from a hollow coil `A` as shows in Fig As the south pole came out of the coil, the bar magnet next to hollow coil `B` experiened a magnetic force

A bar magnet is pulled along axis of a coil with uniform velocity with south pole entering into the coil. The sketch of Joule's heat with time is represented by

In the question number 73, for the coil given the magnetic moment is

In the figure magnetic energy stored in the coil is

The north of a bar magnet is moved towards a coil along the axis passing through the centre of the coil and perpendicular to the plane of the coil. The direction of the induced current in the coil when viewed in the direction of the motion of the magnet is

The pole pieces of the magnet used in a pivoted coil galvanometer are

If a diamagnetic substance is brought near north or south pole of a bar magnet, it is

If a diamagnetic substance is brought near north or south pole of a bar magnet, it is

Two long bar magnets are placed with their axes coinciding in such a way that the north pole of the first magnet is 2.0cm from the south pole of the second. If both the magnets have a pole strength of 10 Am , find the force exerted by one magnet on the other.

A magnet N-S is suspended from a spring and while at oscillates, the magnet moves in and out of the coil C. The coil is connected to a galvanometer G. Then, as the magnet oscillates,

A short bar magnet is placed with its north pole pointing north. The neutral point is 10 cm away from the centre of the magnet. If H=0.4G , calculate the magnetic moment of the magnet.