The steady state current in a `2 Omega` resistor when the internal resistance of the battery is negligible and the capacitance of the condenser is `0.1 mu F` is

Calculate the steady state current in the 2- ohm resistor shown in the circuit in the figure. The intermal resistance of the battery is negligible and the capacitance of the condenser C is 0.2 microfarad.

Calculate the steady state current (in A ) in the 2 mu resistor shown in the circuit (see figure). The internal resistance of the battery is negligible and the capacitance of the condenser C is 0.2 mu F

In fig the steady state current in 2omega resistance is

Calculate the steady-state current through 2 Omega resistor in the circuit shown in Fig. 4.42. The internal resistance of the battery is negligible and C=2 mu F .

An inductor of inductance L=400 mH and resistor of resistance R_(1) = 2(Omega) and R_(2) = 2 (Omega) are connected to a battery of emf E = 12 Vas shown in the figure. The internal resistance of the battery is negligible. The switch S is closed at time t =0. What is the potential drop across L as a function of time? After the steady state is reached, the switch is opened. What is the direction and the magnitude of current through R_(1) as a function of time?

An inductor of inductance L=400 mH and resistors of resistances R_1=2Omega and R_2=2Omega are connected to a battery of emf E=12 V as shown in the figure. The internal resistance of the battery is negligible. The switch S is closed at time t=0 . What is the potential dro across L s a function of time? After the steady state is reached, the switch is opened. What is the direction ad the magnitude of current throough R_1 as a function of time?