A torch battery consisting of two cells of 1.45 volts and an internal resistance `0.15 Omega` , each cell sending currents through the filament of the lamps having resistance 1.5ohms. The value of current will be

Arrange 32 identical cells of emf 2 V each with internal resistance 0.5 Omega such current passing through an external resistance of 1 Omega is maximum. what will be the value of current ?

A cell of emf 2 volt and internal resistance 1.5 Omega is connected to the ends of 1 m long wire. The resistance of wire is 0.5 Omega/m . Find the value of potential gradient on the wire.

In the ciruit the cells E_1 and E_2 have emfs of 4V and 8V and internal resistance 0.5 Omega and 1.0 Omega, respectively. Calculate the current through 6 Omega resistance. ltBrgt

Two cells of emfs 1.5 V and 2.0 V having internal resistances 0.2 Omega and 0.3 Omega respectively are connected in parallel. Calculate the emf and internal resistance of the equivalent cell.

n identical cells, each of emf e volt and internal resistance r Omega are connected in a row m. Such rows are connected in parallel. This battery sends current through an external resistance R. The current will be maximum if

n identical cells, each of emf e volt and internal resistance rOmega are connected in a row m. Such rows are connected in parallel. This battery sends current through an external resistance R. The current will be maximum if

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