Statement-1: When resistance of rheostat is increased, clockwise current is induced in the ring.
Statement-2: Magnetic flux through the ring is out of the page and decreasing.

In a coil of resistance 100 Omega , a current is induced by changing the magnetic flux through it as shown in the figure. The magnitude of change in flux through the coil is

The magnitude of the induced current in a closed circuit is equal to the time rate of change of magnetic flux through the circuit.

A short bar magnet having magnetic dipole moment M is moving along the axis of a fixed conducting (non magnetic) ring of radius R. The axis of the ring is along z direction. (a) Write the z component of magnetic field due to the magnetic dipole at a point P in the plane of the ring, at the instant the magnet is at a distance z from the centre of the ring. Position of point P can be defined in terms of angle theta as shown. (b) Write the magnetic flux through the ring due to the magnetic field produced by the magnet as a function of z. (c) Write the magnitude of emf induced in the ring at the instant shown if speed of the magnet at the moment is v.

Predict the direction of induced current in metal rings 1 and 2 when current I in the wire is steadily decreasing .

A magnet was inserted into a wire ring connected to a ballistic galvanometer of 30 ohm resistance, this causing 20 division deflection of the galvonometer printer. What magnetic flux passes through the pole pices of the magnet. If the galvonometer constant is 3 xx 10^(-5)"C/div"? Neglect the resistance of the resistance of the ring and of the leads.

'The induced emf and current persist as long as the magnetic flux is changing. This is the statement for

In a coil of resistance 50 W, the induced current developed by changing magnetic flux through it, is shown in figure as a function of time. The magnitude of change in flux through the coil is