Two cells each of emf 10 V and each `1Omega` internal resistance are used to send a current through a wire of `2Omega` resistance. The cells are arranged in parallel. Then the current through the circuit

Thirty six cells each of emf 1.5 V and internal resistance 0.5 Omega are used to send current through an external resistor of resistance 2 Omega . What is the best mode of grouping them and the current through the external resistor

Five cells each of emf E and internal resistance r send the same amount of current through an external resistance R whether the cells are connected in parallel or in series. Then the ratio ((R)/(r)) is

In the circuit, the current flowing through 10 Omega resistance

A battery of 24 cells each of emf 1.5 V and internal resistnace 2Omega is to be connected in order to send the maximum current through a 12Omega resistor. The correct arrangement of cells will be

The internal resistance of a 2.1 V cell which gives a current 0.2 A through a resistance of 10 Omega

In the circuit, the current flowing through 10Omega resistance is

A battery of emf 6 volts and internal resistance 1Omega is connected in parallel to another battery of emf 8V and internal resistance 2Omega . The combination is then used to send current through an external resistance of 10Omega . Find the current through the external resistance.

A battery of 6 V internal resistance 0.5 Omega is joined in parallel with another of 10 V and internal resistnace 1 Omega . The combination sends a current through an external resistance of 12 Omega . Find the current through each battery.

Two cells of emf 1.25V,0.75V and each of internal resistance 1Omega are connected in parallel. The effective emf will be