Three similar cells, each of emf 2 V and internal resistance `r Omega` send the same current through an external resistance of `2 Omega` when connected in series or in parallel. The strength of the current flowing through the external resistance is (A)

Five cells each of internal resistance 0.2 Omega and e.m.f. 2V are connected in series with a resistance of 4 Omega . The current through the external resistance is :

When 'n' number of identical cells, each of emf E and internal resistance r are grouped in series, the current flowing through an external resistance R is given by

A 4 V battery of internal resistance 1 Omega sends a current through a 3 Omega resistor. The terminal p.d. is

Two cells of 6 V and 4 V having internal resistance of 3 Omega and 2 Omega respectively are connected in parallel so as to send a current through an external resistance 8 Omega in the same direction. Find the current through the cells and the current through the external resistance.

Two identical cells connected in series send 10 A current through a 5 Omega resistor. When they connected in parallel, they send 8 A current through the same resistance, the internal resistance of each cell is

Three resistances 2 Omega , 3 Omega and 4 Omega are connected in parallel . The ratio of currents passing through them when a potential differences is applied across its ends will be

A battery has e.m.f. 4V and internal resistance r . When this battery is connected to an external resistance of 2 Omega , a current of 1A flows in the circuit. How much current will flow if the terminals of the battery are connected directly.