Five identical plates of equal area A are placed parallel to each other and at equal distance d from each other as shown in the figure. The effective capacity of the system between the terminals A and B is

equal chords are equidistant from each other

Four plates of equal area A are separted by equal distance d and are arranged as shown in the figure. The equivalent capcity is

Four metallic plates each with a surface area A of one side and placed at a distance d from each other. the plates are connected as shown in the fig. Then the capacitance of the system between a and b is -

Four metallic plates each with a surface area of one side A are placed at a distance d from each other as shown. Then, the capacitance of the system between X and Y is

Seven indetical plates each of area A and successive separation d are arranged as shown in figures, the effective capacitance of the system between

Four identical plates 1, 2, 3 and 4 are placed parallel to each other at equal distance as shown in the figure. Plates 1 and 4 are joined together and the space between 2 and 3 is filled with a dielectric of dielectric constant k = 2. The capacitance of the system between 1 and 3 & 2 and 4 are C_1 and C_2 respectively . The ratio C_1/C_2 is

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.

A copper plate of thickness b is placed inside a parallel plate capacitor of plate distance d and area A as shown in figure. The capacitance of capacitor is

Four capacitors each of capacity 8 muF area connected with each other as shown in figure. The equivalent capacitance between points X and Y will be

Two electric dipoles are placed parallel to each other as shown in figure. The potential at apoint P is