Three identical conducting plain parallel plates, each of area A are held with equal (/ between successive surfaces. Charges `2Q`, and `3Q` are placed on them. Neglecting edge effects, find the Charge on the left face of the middle plate

Three identical metal square plates of surface area A of each side is arranged as shown in the figure.Plates 1 2 and 3 are given charges +20, -Q and -Q respectively. Find out the correct options A) Charge on the two faces of the middle plate are -2Q and Q B) Charge on the two faces of the middle plate are -Q and 0 C) Charge on the two faces of the left most plate are zero and 2Q D) Charge on the two faces of the right most plate are -Q and zero

Three parallel metalic plates each of area A are kept as shown in figure and charges q_1,q_2 and q_3 are given to them. Find the resulting charge distribution on the six surfaces, neglecting edge effects as usual,

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 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 conducting plates of area 500 cm^(2) area kept fixed as shown. Distance between adjacent plates is 8.85 mm. A charge of 1.0 nC is placed on the middle plate. (a) The charge on the outer surface of the upper plates is given by nxx10^(-11)C then find the value of n. (b) Find the potential difference (inV) developed between the upper and the middle plates.

The charge on a parallel plate capacitor varies as =q_0 cos 2pi ft . The plates are very large and close together (area=a,separation=d). Neglecting the edge effects, find the displacement current through the capacitor.

Three identical metallic plates, each of area A, are kept at small separations as shown. Initially, charge Q, 3Q and 3Q are given to the plates A, B and c, respectively. Now, both the switches S_(1) and S_(2) are closed simultaneously. Then Charge flown through S_(1) and S_(2) are

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.

Three large plates A, B and C are placed parallel to each other and charges are given as shown. The charge that appears on the left surface of plate B is

Three identical metallic plates are kept parallel to one another at a separation of a and b The outer plates are connected by a thin conducting wire and a charge Q is placed on the central plate Find final charges on all the surfaces of the three plates. [faces(1) Q/2,(2) -(Qb)/(a+b),(3) (Qb)/(a+b),(4)(Qa)/(a+b),(5)-(Qa)/(a+b),(6)Q/3]