Figure shows two capacitors in series. The rigid center section of length .b. is movable. The area of each plate is S. If the voltage difference between the plates is maintained constant at `V_0` The change in stored energy if the center section is removed is

Shows two capacitors in series, the rigid central conducting section of length b being movable vertically. . The equivalent capacitance of the given structure is .

shows two capacitors in series, the rigid central conducting section of length b being movable vertically. . If the potentials of the upper and lower plates are V_(1) and V_(2) respectively, then potebtial of rigid segid secton is.

A parallel plate capacitor has a uniform electric field E in the space between the the plates. If the distance between the plates is d and area of each plate is A, the energy stored in the capacitor is

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 parallel plate condenser has a unifrom electric field E (V//m) in the space between the plates. If the distance between the plates is d(m) and area of each plate is A(m^(2)) the energy (joule) stored in the condenser is

A parallel plate condenser has a unifrom electric field E (V//m) in the space between the plates. If the distance between the plates is d(m) and area of each plate is A(m^(2)) the energy (joule) stored in the condenser is

A parallel plate vacuum capacitor with 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 dx. What is the change in the stored energy? (c) If F is the force with which the plates attract each other, then the change in the stored energy must equal the work dW = Fdx done in pulling the plates apart. Find an expression for F . (d) Explain why F is not equal to QE , where E is the electric field between the plates.

Two similar parallel plate capacitors each of capaciti C_0 are connected in series The combination is connected with a voltage source of V_0 . Now, seperation between the plates of one capacitor is increased by a distance d and the separation between the plates of another capacitor is decreased by the distance d/2 . The distance between the plates of each capacitor was d before the chane in sepration. Then select the correct choice.

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.

A parallel plate capacitor consist of two circular plates of area 0.04 m^2 each. They are separated by a distance 0.4 mm. If displacement current between the plates is 6A then rate of change in electric field between the plate w.r.t. time will be