Two large parallel conducting plates of net charge `2Q` and `-Q` are placed in a uniform external electric field `(Q)/(2Aepsilon_(0))` prependicular to plates as shown. The surface area of each plates is A. The charge on the left surface of the left plate and right surface of the right plate are respectively.

Two large thin conducting plates with a small gap in between are placed in a uniform electric field E (perpendicular to the plates.)The area of each plate is A, and charges +Q and -Q are given to these plates as shown in figure. If R,S, and T are three points in space, then the

Two large conducting plates of a parallel plate capacitor are given charges Q and 3Q respectively. If the electric field in the region between the plates is E_0 , then the force of interaction between the plates is

Three metallic isolated plates are given charges as shown in figure, the sum of the charges on the outer surfaces of the two plates ( 1 ) and ( 3 ) is (where -3Q and 4Q are total charges of plates ( 1 ) and ( 3 ) respectively.)

Area of each plate is A . The conducting plates are connected to a battery of emf V volts. Find charges q_1 to q_t .

Three charged conducting plates are separated by small distances as shown in figure. The charges on the plates are shown. Find the ratio of charge on right surface and left surface of the middle plate.

In the figure shown below ,the charge on the left plate of the 10mu F capacitor is -30 mu C. The charge on the right plate of the 6 muF capactior is :

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.

Each of two large conducting parallel plates has one sided surface area A. If one of the plates is given a charge Q whereas the other is neutral, then the electric field at a point in between the plates is given by

In a parallel plate capacitor with plate area A and charge Q, the force on one plate because of the charge on the other is equal to

For the system shown in capacitance is C The left plate is given a charge Q_(1) and the switch is closed. . Find the charge appearing on the inner face of the left plate.