`A, B, C, D, E,` and `F` are conducting plates each of area `A`, and any two consecutive plates are separated by a distance `d`, The energy in system after the switch `S` is closed is`
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Find the charge on each plate given area of each plate is A and separation between two consecutive plates is d.

The plates of a parallel plate capacitance 1.0 F are separated by a distance d =1 cm. Find the plate area .

Two parallel conducting plates, each of area A, are separated by a distance d. Now, the left plate is given a positive charge Q. A positive charge q of mass m is released from a point near the left plate. Find the time taken by the charge to reach the right plate.

Four conducting plates of equal area A are separated by distance d and are arranged as shown.The equivalent capacitance between A and B 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

Find out the capacitance of parallel plate capacitor of plate area A and plate separation d.

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

If n plates are arranged in series as shown in figure.Alternate plates are placed at distance d and 2d. If n is a odd number then charge supplied by the battery of voltage V when switch S is closed is (Plate area is A)

Plates of area A are arranged as shown. The distance between each plate is d , the net capacitance is

Two parallel conducting plates of area A each,are placed at distance d.A third plate ,identical with the first two placed at a distance d/3 from one of the plate as shown in figure.The capacitance of given arrangement is