Find potential difference across the plates AB if capacitance between the plates is C and area of each plate is equal and `Q_(1), Q_(2) (lt Q_1)` are charges given to the plates

The equivalent capacitance between P and Q in the figure is (area of each plate is A and separation between two consecutive plates is d)

Find the equivalent capacitance between A and B . A : area of each plate, d : separation between the plates.

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

The plates of a parallel-plate capacitor in vacuum are 5.00 mm apart and 2.00 m^2 in area. A potential difference of 10,000 V is applied across the capacitor. Compute (a) the capacitance (b) the charge on each plate, and (c) the magnitude of the electric field in the space between them.

Find the charge on each plate given area of each plate is A and separation between two consecutive plates is d.

A parallel air capacitance 245muF has a charge of magnitude 0.48muC on each plate. The plates are 0.328 mm apart. (a) What is the potential difference between the plates? (b) What is the area of each plate? (c) What is the surface charge density on each plate?

Charges 2q and -3q are given to two identical metal plates of area of cross section A . the distance between the plates is d . Find the capacitance and potential difference between the plates.

In a parallel plate capacitor, the distance between the plates is d and potential difference across the plate is V . Energy stored per unit volume between the plates of capacitor is

A capacitor initially given a charge Q_(0) is connected across a resistor R at t=0 . The separation between the plates changes according to d=(d_(0))/((1+t))(0 le t lt1) . A small bulb is connected across the plates of the capacitor which lights when potential difference across the plates of the capacitor reaches V_(0) . Find ( a ) the variation of charge with time ( b ) time when the bulb will light.

Find out equivalent capacitance between A and B. (take each plate Area = A and distance between two conjugative plates is d)