Question

A 3.96 μF capacitor and a 7.94 μF capacitor are connected in series across a 14.0 V battery. What voltage would be required to charge a parallel combination of the same two capacitors to the same total energy?

Answer 1

`V_p = V_ssqrt((sqrt(C_1^2 + C_2^2))/(C_1 + C_2))`

Explanation:

The energy stored in a capacitor is:

`U = 1/2 q^2 / C`
Which can also be written in the forms:
`U = (CV^2)/2`

`U = (qV)/2`

The capacitance of the parallel case can be calculated as:
`C_p = C_1 + C_2`

And the capacitance of the series case can be calculated as:
`C_s = sqrt(C_1^2 + C_2^2)`

So we want to find a series energy `U_s` that is the same as the parallel energy `U_p`.

`U_s = U_p`
`(C_sV_s^2)/2 = (C_pV_p^2)/2`
`(V_s^2sqrt(C_1^2 + C_2^2))/(C_1 + C_2) = V_p^2`

`sqrt((V_s^2sqrt(C_1^2 + C_2^2))/(C_1 + C_2)) = V_p`

I'll leave it as an exercise for the student to plug in the numbers required for this calculation.