Two Cells `E_1` and `E_2` in the given circuit diagram have an emf of 5 V and 9 V and internal resistance of 0.3 `Omega` and 12 `Omega`, respectively. Calculate the value of current flowing through the resistance of 3 `Omega`.

An AC source of emf E=200sin(100 pit) is connected across an inductor having resistance 100Omega and self inductance 2H. Calculate-Peak value of current flowing through the circuit.

Find the best arrangement for 36 cells, each of emf 1.5 volt and internal resistance 0.5 ohm when they are connected with 2 ohm resistance. Calculate the maximum current in the arrangement.

A battery gives a current of 0.5A with an external resistor of 12 Omega and.0.25 A with resistor of 25 Omega Calculate the emf

battery gives a current of 0.5A with an external resistor of 12 Omega and.0.25A with resistor of 25 Omega Calculate the internal resistance of the battery.

A battery of 9V is connected in series with resistors of 0.2Omega , 0.3Omega , 0.4Omega , 0.5Omega and 12Omega , respectively. How much current would flow through the 12Omega resistor?

Two cell of emf. 1.5v and 2 v and internal resistance 2 and 1Omega respectively have their negative terminal joined by a wire of 6Omega and positive terminal by another wire of 4Omega A third resistance of 8Omega connected mid point of these wire. Find the potential difference at the end of the third wire.

A pn junction diode when forward biased has a drop of 0.5 V and independent of current flowing trhough it. The maximum bearable current is 10 mA. Calculate the value of R so the current through the circuit is 5 mA.

Two 6 ohm resistances are connected in parallel and a 12 V battery is connected across the combination. Find the current flowing through each of the resistances.