Two large, thin metal plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite sign and of magnitude `17.0 xx 10^(-11)C//m^2.` What is E
(a) in the outer region of the first plate,
(b) in the outer region of the second plate, and (c) between the plates?

Two large conducting plates are placed parallel to each other and they carry equal and opposite charges with surface density sigma as shown in figure (30-E6). Find the electric field (a) at the left of the plates, (b) in between the plates and © at the right of the plates.

Two large conducting plates X and Y. each having large surface area A (on one side), are placed parallel to each other as shown in figure (30-E7). The plate X is given a charge Q whereas the other is neutral. Find (a) the surface charge density at the inner surface of the plates X, (b) the electric field at a point to the left of the plates, (c) the electric field at a point in between the plates and (d) the electric field at a point to the right of the plates.

Two conducting plates A and B are placed parallel to each other. A is given a charge. Q_1 and B a charge Q_2 . Find the distribution of charges on the four surface.

Three identical metal plates with large surface areas are kept parallel to each as shown in figure (30-E8). The leftmost plate is given a charge Q, the rightmost a chrgear2Q and the middle one remains neutral. Find the charge appearing on the outer surface of the rightmost plate.

The capacitance between the adjacent plates shown in figure (31-E20 ) is 50 nF . A charge of 1.0muC is placed on the middle plate (a )What will be the charge on the outer surface pf the upper plate ? (b ) Find the potential difference developed between the upper and the middle plates .

Two thin infinite parallel plates have uniform charge densities + sigma and - sigma . The electric field in the space between then is

Two large glass plates are placed vertically and parallel to each other inside a tank of water with separation between the plates equal to 1 mm. Find the rise of water in the space between the plates. Surface tension of water =0.075Nm^-1 .

In the Milikan oil drop experiment the drop carries 10 electronic charges charge and a mass of 4.4 xx 10^(-15)kg . It is held almost stationary between two horizontal plate separated by 2cm. What is the potential between the plates?

The plates of a parallel-plate capacior are given equal positive charges .What will be the potential difference between the plates ? What will be the charges on the facing surfaces and on the outer surfaces ?

A charged partical having a charge of -2.0 xx 10^(-6) C is placed close to a nonconducting plate having a surface charge density 4.0 xx 10^(-6) C m^(-2) . Fine the force of attraction between the particle and the plate.