Twelve capacitors, each having a capacitance C, are connected to form a cube . Find the equivalent capacitance between the diagonally opposite corners such as A and B.

Suppose the points A and B are connected to a battery. The charge appearing on some of the capacitors are shown in figure. Suppose the positive termainal of the battery supplies a charge is divided on the three plates connected to A. Looking from A, the three sides of the cube have identical properties and hence, the charge will be eually distributed on the three plates. Each of the capacitors a, b and c will receive a charge Q/3. The nagative terminal of the battery supplies a charge - Q through the point B. This is again divided equally on the three plates connected to B. Each of hte capacitors d, e and f gets equal charge Q/3. Now consider the capacitors g and h. As the three plates connected to the point E form and isolated system, their total charge must be zero. the nagative plate of g and h connected to E should have a total charge Q/3. By symmetry, these two plates should have equal charges and hence each of these has a charge Q/6. The capacitors a, g and d have charges Q/3, Q/6 and Q/3 respectively. we have, `
` V_A - V_B = (V_A - V_E) + (V_E - V_F) + (V_F - V_B)`
` `
`= (Q/3)/(C ) +(Q/6)/(C ) + (Q/3)/(C) = (5Q)/(6C)`
`. or, `
`C_(eq) = (Q)/(V_A - V_B) = (5)/(6) C.