Find the current through the resistance R in figure.If (a)`R=12 Omega`(b)`R=48 Omega`.

Find the current through 12 Omega resistor in

Find the current through 2 Omega and 4 Omega resistance.

Find the current l through then 10 Omega resistance in the network shown in figure.

Current through resistor R3 as shown in figure is ______. Given that R1=10 Omega R2=5 Omega R4=20 Omega and R5=10 Omega

Find the current flowing through the resistance R_(1) of the circuit shown in Fig. If the resistances are equal to R_(1) = 10 Omega. R_(2) = 20 Omega and R_(3) = 30 Omega , and the potential of points 1,2 and 3 are equal to varphi_(1) = 10 V, varphi_(2) = 6V , and varphi_(3) = 5 V

A cell of emf E and internal resistance r supplies currents for the same time t through external resistances R_(1) = 100 Omega and R_(2) = 40 Omega separately. If the heat developed in both cases is the same, then the internal resistance of the cell is

In the circuit shown in figure Current through R_(2) is zero if R_(4) = 2 Omega and R_(3) = 4 Omega In this case

(a) Resistors given as R_(1), R_(2) and R_(3) are connected in series to a battery V. Draw the circuit diagram showing the arrangement. Derive an expression for the equivalent resistance of the combination. (b) If R_(1)=10 Omega, R_(2)=20 Omega and R_(3)=30 Omega , calculate the effective resistance when they are connected in series to a battery of 6 V. Also find the current flowing in the circuit.

Find the value of i_(1)//I_(2) in figure if (a) R=0.1(Omega) (b) R=1(Omega) (c) R=10(Omega) .Note from your answers that in order to get more current from a combination if two batteries they should be joined in parallel if the external resistance is small and in deries if the external resistance is large as compared to the internal resistances.

In the circuit shown in Fig. the emf of the sources is equal to xi = 5.0 V and the resistances are equal to R_(1) = 4.0 Omega and R_(2) = 6.0 Omega . The internal resistance of the source equals R = 1.10 Omega . Find the currents flowing through the resistances R_(1) and R_(2) .