Two large conducting plates are placed parallel to each other nad 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, thin plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite signs and of magnitude 16xx10^(-22)C m^(-2) . The electric field between the plates is

two large conducting thin plates are placed parallel to each other. They carry the charges as shown. The variation of magnitude of eclectric field in space due to this system is best given by

Two large thin metal plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite signs and magnitude 27xx10^(-22)Cm^(-2) . The electric field vecE in region II in between the plates is

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.

Two large parallel conducting plates are placed close to each other ,the inner surface of the two plates have surface charge densities +sigma and -sigma .The outer surfaces are without charge.The electric field has a magnitude of

Two large, thin metal plates are parallel and close to each other. On their faces, the plates have surfaces charge densities of opposite sign and of magnitude .177 xx 10^(-11) coulomb per square metre. What is electric field (i) to the left of the plates ? (ii) to the right of the plates ? (iii) in between 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.

Four identical metal plates are placed in air parallel to each other with distances d from one another. The area of each plate is equal to A. The arrangement is shown in the figure. Find the capacitance of the system between plates P and R.

Two infinite, non-conducting sheets of charge are parallel to each other, as shown in figure. The sheet on the left has a uniform surface charge density sigma , and the one on the right has a uniform charge density -sigma . Calculate the electric field at points (a) to the left of, (b) in between, and (c) to the right of the two sheets.

Five plates are arranged as shown in the figure and connected across a battery of emf V. The separation between each plate is d and surface area of each plate is A.