Two cells of 1.5 V and 2 V , having internal resistances of `1Omega` and `2Omega` respectively, are connected in parallel so as to read the current in the same direction through an external resistance of `5 Omega` . The current in the external resistance will be

Two cells of emf 1.5 Volt and 2 Volt having respective internal resistances of 1 Omega and 2 Omega are connected in parallel so asto send current in same direction through an external resistance of 5 Omega . Find the current through the external resistance.

Two cells of e.m.f. 2.5 V and 2.0 V having internal resistance of 1Omega and 2Omega respectively are connected in parallel with similar poles connected together so as to send the current in the same direction through an external resistance of 2Omega . The current in the external resistance is

Two cells of emf 2V and 4V and internal resistance 1Omega and 2Omega respectively are connected in parallel so as to send the current in the same direction through an external resistance of 10Omega. Find the potential difference across 10Omega resistor.

Two cells of emf 2V and 4V and internal resistance 1Omega and 2Omega respectively are connected in parallel so as to send the current in the same direction through an external resistance of 10Omega . Find the potential difference across 10Omega resistor.

Two cells of emfs 1.5 V and 2.0V internall resistance 1 Omega and 2 Omega are connected in parallel so as to send current in the same direction through an external resistance of 5 Omega . Draw the circuit diagram.

Two cells of emfs 1.5 V and 2.0V internall resistance 1 Omega and 2 Omega are connected in parallel so as to send current in the same direction through an external resistance of 5 Omega . Using Kirchhoff's rules, calculate. potential difference across the 5 Omega resistance.