In the circuit shown, the resistances are given in ohms and the battery is assumed ideal with emf equal to 3.0 V.

In the circuit shown, the resistance are given ohms and the battery is assumed ideal with end equal to 3.0 volts. The resistance that dissipates the maximum power is

In the circuit shown the resistance of voltmeter is 10000 ohm and that of ammeter is 20 ohm . The ammeter reading is 0.10 amp and voltmeter reading is 12 volts. Then R is equal to

In the circuit shown, the battery, the ammeter and the voltmeter are ideal. Pick the correct choice(s) :

In the circuit shown, current (in A) through the 50 V and 30 V batteries are, resepctively

In the circuit shown in the adjacent figure, the batteries are ideal. The charge on the capacitor C is

A battery having 12V emf and internal resistance 3Omega is connected to a resistor. If the current in the circuit is 1A, then the resistance of resistor and lost voltage of the battery when circuit is closed will be

In the circuit shown,choose the correct option (All batteries are ideal)

If all resistors in the shown network are of equal resistance, and the battery is of emf equal to 10 V and internal resistance equal to 1 Omega , what should be resistance of each resistor so that the battery delivers maximum power

In the circuit shown in the potential difference between the point a and b is 4 V , Find the emf epsilon of the battery. Assume that before connecting the battery in the circuit, all the capacitors were uncharged. .

In the circuit shown, the reading of the Ammter is doulbed after the switch is closed. Each resistor has a resistance = 1 Omega and the ideal cell has an e.m.f. = 10 V . Then the ammeter has a resistance equal to