A battery consists of a variable number (n) of identical cells, each having an internal resistance r connected in series. The terminals of the battery are short - circuited. A graph of current versus the number of cell will be:

A battery consists of a variable number n of identical cells having internal resistance connected in series. The terminals of the battery are short circuited and the current I measured. Which one of the graph below shows the correct relationship between I and n ?

n identical cells each of emfe and internal resistance r are joined in series so as to form a closed circuit. The P.D. across any one cell is

A group of six identical cells each of emf E and internal resistance r are joined in series to form a loop. The terminal voltage across each cells is

Three identical cells, each of emf 2 V and internal resistance 0.2Omega are connected in series to an external resistor of 7.4Omega . Calculate the current in the circuit.

A group of n identical cells each of EMF E and internal resistance r are joined in series to form a loop as shown . The terminal voltage across each cell is

n identical cells each of e.m.f. E and internal resistance r are connected in series. An external resistance R is connected in series to this combination. The current through R is

n identical cells, each of emf E and internal resistance r, are joined in series to form a closed circuit. Find the potential difference across any one cell.

A series parallel combination battery consisting of a large number N = 300 of identical cells, each will an inernal resistance r = 0.3 Omega , is loaded with an external resistances R = 10 Omega . Find the number n of parallel groups consisting of an equal number of cells connected in series, at which the external resistance generates the highest thermal power.

In a arrangement, 3n cells of emf epsilon and internal resistance r are connected in series. Out of 3n cells polarity of n cells is reversed. Current in the circuit is

n equal cell having emf E and internal resistance r, are connected in circuit of a resistance R. Same current flows in circuit either they connected in series or parallel, if: