You have two identical capacitors and an extermal potential source.
a. Compare the total energy stored in capaciton when they are connected to the applied potential in series and in parallel.
b. Compare the maximum amount of charge stored in each case.
c. 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 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?

Energy stored in a capacitor c having potential v is given by ?

n capacitors each of capacity C are joined in parallel. If they are connected to a source of V volts, then the energy stored in the capacitor is

A 16 pF capacitor is connected to 70 V supply. The amount of electric energy stored in the capacitor is

Obtain the expression for the energy stored in a parallel plate capacitor of capacitance C charged to a potential V.

Calculate energy stored in a capacitor stored in a capacitor of 5 mu F when it is charged to a potential of 250 volt.

Consider the situation of the previous problem. Find the average electric field energy stored in the capacitor and the average magnetic field energy stored in the coil.

A capacitor with stored energy 4.0J is connected with an identical capacitor with no electric fileld in between . Find the total energy stored in the two capactors .

A parallel plate air filled capacitor having area 40 cm^2 and plate spacing 1.0 mm is charged to a potential difference of 500V. Find (a) the capacitance, (b) the magnitude of the charge on each plate ( c) the stored energy, (d) the electric field between the plates and (e ) the energy density between the plates.