Give the directlon in which the induced curren1 flows in the wire loop, when the magnet moves towards it as shown in figure below.

Give the direction in which the induced current flows in the coil mounted on an insulated stand, when a bar magnet is quickly moved along the axis of the coil from one side to the other as shown in the figure.

Predict the polarity of the plate A of the capacitor, when a magnet is moved towards it, as shown in the figure.

A conducting loop is held below a current carrying wire PQ. Predict the direction of the induced current in the loop, when the current in the wire is constantly increasing.

The electron current in the direction from B to A is decreasing. What is the direction of induced current in the metallic loop kept above the wire as shown in the figure.

Which defect of the eye is shown in the figure given below?

The figure SAQ 14(a) shows two identical rectangular loops (1) and (2) placed along with a straight long current carrying conductor between them. What will be the direction of induced currents in the loops when they are pulled away from the condutor with the same velocity v?

In the figure SAQ 12(a) a bar magnet moving towards the right or left induces an e.m.f. in the coils (1) and (2). Find, giving reason, the direction of induced currents through resistors AB and CD. When the magnet is moving towards the right.

When a conducting loop of resistance 10 Omega and area 10 cm^2 is removed from an external magnetic field acting normally, the variation of induced current in the loop with time is shown in the figure. Magnitude of the magnetic field applied.

When a conducting loop of resistance 10 Omega and area 10 cm^2 is removed from an external magnetic field acting normally, the variation of induced current in the loop with time is shown in the figure. Find the change in magnetic flux through the loop.