Consider the arrangement of three plates `X,Y` and `Z` each of the area `A` and separation `d`. Find the energy stored when the plates are fully charged.

Consider the arrangement of three plates X,Y and Z each of the area A and separatioin d . The energy sotred when the plates are fully charged is

Consider the arrangement of three plates X,Y and Z each of the area A and separatioin d . The energy sotred when the plates are fully charged is

Three plates A, B, C each of area 50 cm^(2) have separation 3 mm between A and 3 mm between B and C . The energy stored when the plates area fully charged is

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

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

In a parallel-plate capacitor of plate area A , plate separation d and charge Q the force of attraction between the plates is F .

A capacitor, made of two parallel plates each of plate area A and separation d, is being charged by an external ac socurce. Show that the displacement current inside the same as the current charging the capacitor.

A capacitor, made of two parallel plates each of plate area A and separation d, is being charged by an external ac socurce. Show that the displacement current inside the same as the current charging the capacitor.

A parallel plate vacuum capacitor eith plate area A and separation x has charges +Q and -Q on its plates. The capacitor is disconnected from the source of charge, so the charge on each plate remains fixed. a. What is the total energy stored in the capacitor? b. The plates are pulled apart an additional distance each case. c. If F is the force with which the plates attract each other, the change in the stored energy must equal the work dW =F dx done in pulling the plates apart. Find an expression for F d. Energy storage in a capacitor can be limited by the maximum electric field between the plates. What is the ratio of the electric field for the series for parallel combinations?

A parallel plate capacitor of capacity C_(0) is charged to a potential V_(0), E_(1) is the energy stored in the capacitor when the battery is disconnected and the plate separation is doubled, and E_(2) is the energy stored in the capacitor when the charging battery is kept connected and the separation between the capacitor plates is dounled. find the ratio E_(1)//E_(2) .