In a series combination of two capacitances C' and `C (CgtC)` (as shown in the circuit)

Find the ratio of the potential difference that just be applied across the parallel and series combination of two capacitors C_1 and C_2 with their capacitances in the ration 1:3, so that the energy stored in two cases, becomes the same.

Show that the equivalent capacitance for a series combination of capacitors is always less than even the least capacitance in the series.

When a series combination of two uncharged capacitors is connected to a 12V battery, 173 muJ of energy is drawn from the battery. If one of the capacitors has a capacitance of 4muF , the capacitance of the other capacitor (inmuF) is:

A voltage V_0sinomegat is applied across a series combination of resistance R and inductor L. The peak value of the current in the circuit is

The equivalent capacitance of the parallel and the series combinations of two capacitors are 5mu F " and " 1.2 muF , respectively. Calculate the capacitances of each capacitor.

The series combination of two 10 ohm resistances is connected in parallel combination with a 20 ohm resistance. Determine the equivalent resistance of the final combination.

A Current I= I_(0) e^(- lambdat) is flowing in a circuit consisiting of a parallel combination of resistance R and capacitance C. The total charge over the entire pulse period is

In an ac circuit containing capacitance , only the current

A capacitor of capacitance C_(0) is charged to a potential V_(0) and is connected with another capacitor of capacitance C as shown. After closing the switch S, the common potential across the two capacitors becomes V, The capacitance C is given by