Predict the polarity of the capacitor when the two magnets are quickly moved in the directions marked by arrows.

Predict the polarity of the capacitor in the situation described in the figure below.

In the figure given, mark the polarity of plates A and B of a capacitor when the magnets are quickly moved towards the coil.

(a). Predict the polarity of capacitor C as shown in Fig. 3.26 when poles S and N of two identical magnets approach the coil from opposote sides with equal velocity. The plane of the loop containing the capacitor is perpendicualr to the plane of the paper. (b). A magnetic field perpendicular to the plane of a rectangular frame of wire is concentrated about O . If the field decreases, will there be any emf induced in loop 1 ? What about loop 2 ? Explain why.

What happens when the two plates of earth's crust moving in opposite directions slide past ont another ?

(a) A closed loop is held stationary in the magnetic field between the north and south poles of two permanent magnets held fixed. Can we hope to generate current in the loop by using very strong magnets? (b) A closed loop moves normal to the constant electric field between the plates of a large capacitor. Is a current induced in the loop (i) when it is wholly inside the region between the capacitor plates (ii) when it is partially outside the plates of the capacitor? The electric field is normal to the plane of the loop. (c) A rectangular loop and a circular loop are moving out of a uniform magnetic field region (Fig. 6.8) to a field-free region with a constant velocity v. In which loop do you expect the induced emf to be constant during the passage out of the field region? The field is normal to the loops. (d) Predict the polarity of the capacitor in the situation described by Fig. 6.9.