Capacitor `C_1` of capacitance 1 micro-farad and capacitor `C_2` of capacitance 2 microfarad are separately charged fully by a common battery. The two capacitors are then separately allowed to discharged through equal resistors at time t = 0.

Capacitor C_(1) of the capacitance 1muF and another capacitor C_(2) of capacitance 2muF are separately charged fully by a common battery.The two capacitors are then separately allowed to discharge through equal resistors at time t=0 .

A capacitor C_1 of capacitance 1muF and a capacitor C_2 of capacitance 2muF are separately charged by a common battery for a long time. The two capacitors are then separately discharged through equal resistors. Both the discharge circuits are connected at t = 0 .

A capacitor of capacitance 500(mu)F is connected to a battery through a (10 k (Omega)) resistor.The charge stored on the capacitance 2(mu)F are separately charged by a common battery for a long time. The two capacitors are then separately discharged through equal resistors.Both the discharge circuits are connected at t=0.

Capacitors C_(1)=1 muF and C_(2)=2muF are separately charged from the same battery. They are allowed to discharge separately through equal resistors

Reactance of a capacitor of capacitance 1//pi farad at 50 Hz is

Two capacitors C_(1) = 2 mF and C_(2) = 8 mF are seperately charged from the same battery. These two capacitors are then allowed to discharge separately through resistors of same resistance with a switch in series which are kept open initially. Both switches are closed at t = 0.

Charge on the capacitor having capacitance C_2 in steady state is