A battery of emf V volts, resistances `R_(1)` and `R_(2)`, a condenser C and switches S1, and S2, are connected in a circuit as shown. The capacitor C gets fully charged to V volts when

In the circuit shown above, when do the condenser (C) get fully charged to volts ?

Two batteries of emf E_(1) and E_(2) , a capacitor of capacitance I 'C' and a resistor R are connected in a circuit as shown When the switch S is shifted from position (1) to (2), then Esta the charge flow and work done by battery E_(2)

In the circuit, a battery of emf E, a resistance R and inductance coil L_(1) and L_(2) and switch S are connected as shown. In Fig. Initially the switch is open

Two capacitors C_(1) and C_(2) are connected with two batteries of emf epsilon_(1) and epsilon_(2) . The circuit components are connected with a switch S as shown in. Initially the switch is open and the capacitors are charged. Find the heat produced when switch S is closed. .

The circuit consists of two resistors (of resistance R_(1) = 20 Omega and R_(2) = 10 Omega ), a capacitor (of capacitance C =10 muF ) and two ideal cells. In the circuit shown the capacitor is in steady state and the switch S is open The charge on capacitor in steady state with switch S closed.

Two batteries, one of emf 18 volts and internal resistance 2 Omega and the other fo emf 12 volts and internal resistance 1 Omega , are connected as shown. The voltmeter V will record a reading of

The circuit consists of two resistors (of resistance R_(1) = 20 Omega and R_(2) = 10 Omega ), a capacitor (of capacitance C =10 muF ) and two ideal cells. In the circuit shown the capacitor is in steady state and the switch S is open The current through the resistor R_(2) just after the switch S is closed is :

A capacitor C is connected to a battery circuit having two switches S_(1) and S_(2) and resistances R_(1) and R_(2) . The capacitor will be fully charged when .

In the given circuit the capacitor (C) may be charged through resistance R by a battery V by closing switch (S_1) . Also when (S_1) is opend and (S_2) is closed the capacitor is connected in series with inductor (L). When the capacitor gets charged compleely, (= (S_1) is opened and (S_2) is closed, Then,