A conductuing loop having a capacitor is moving outward from the magnetic field. Which plate of the capacitor will be positive?

A capacitor having capacity of 2 muF is charged to 200 V and then the plates of the capacitor are connected to a resistance wire. The heat produced in joule will be

Two capacitors of capacitance 2 muF and 3 muF are joined in series. Outer plate first capacitor is at 1000 volt and outer plate of second capacitor is earthed (grounded). Now the potential on inner plate of each capacitor will be

A parallel plate capacitor is charged and then the battery is disconnected. When the plates of the capacitor are brought closer, then

A parallel plate capacitor is charged and the charging battery is then disconnected. If the plates of the capacitor are moved farther apart by means of insulating handles:

Three capcaitors of capacities 1muF, 2muF and 3muF are charged by 10V, 20V and 30V respectively. Now positive plates of first two capacitors are connected with the negative plate of third capacitor on one side and negative plates of first wo capacitors are connectes with positive of third capacitor on the other side. Find a. common potential V b. final charges on different capacitors.

What happens to the energy stored in a capacitor if after disconnecting the battery, the plates of a charged capacitor are moved farther

(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.

The terminals of a battery of emf V are connected to the two plates of a parallel plate capacitor. If the space between the plates of the capacitor is filled with an insulator of dielectric constant K, then :

(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.

A capacitor is connected to an alternating- current source. Is there a magnetic field between the plates ?