A bar magnet is held stationary while a circular loop of wire is moved toward the magnet at constant velocity at position A as in figure. The loop passes over the magnet at position B and moves away from the magnet at position C. Find the direction of the induced current in the loop using Lenz’s law (a) at position A and (b) at position C. (c) What is the induced current in the loop at position B? Explain.

 

A magnet is hung by a string and then' placed near a wire as shown. When the switch is closed, the magnet rotates such that the ends of the magnet move as indicated by the arrows.

At the instant the switch is closed determine:

a) The direction of the current through the wire segment nearest the magnet. Explain.

b) The direction of the force exerted by the magnet on the wire segment (assume the magnet is in the position shown). Explain.

Suppose you are holding a circular ring of wire and suddenly thrusta magnet, south pole first, away from youtoward the center of thecircle. Is a current inducedin the wire? Is a current induced whenthe magnet is held steady withing the ring? Is a currentinducedwhen you withdraw the magnet? in each case, if youransweris yes, specify the direction .

Suppose you are holding a circular ring of wire and suddenly thrusta magnet, south pole first, away from youtoward the center of thecircle. Is a current inducedin the wire? Is a current induced whenthe magnet is held steady withing the ring? Is a currentinducedwhen you withdraw the magnet? in each case, if youransweris yes, specify the direction