Figures shows mixed grouping of identical cells each of e.m.f. 4V and internal resistance `1 Omega ` . This combination can be replaced by an equivalent cell between A and B having e.m.f. E and internal resistance r, where

The mixed grouping of practical cells are shown in the figure. The given combination can be replaced by an efffective cell between A and B having emf E and internal resistance r, then choose the correct option

Seven identical cells each of e.m.f. E and internal resistance r are connected as shown . The potential difference between A and B 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

In the situation shown each cell has e.m.f. 4V and internal resistance 1Omega . The maximum power that can be delivered to the variable load resistance R is

Five cells each of emf E and internal resistance r are connecte in series. Due to oversight one cell is connected wrongly . The equivalent emf and internal resistance of the combination is

Four idential cells each having e.m.f. E, internal resistance r are connected as shown in figure. Find the potential difference between: (i) A and B (ii) A and C

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

A cell whose e.m.f. is 2V and internal resistance is 0.1Omega is connected with a resistance of 3.9Omega the voltage across the cell terminal will be

A cell of emf 16V and internal resistant 4 Omega can deliver maximum power to a load of resistance R where R is equal to

In a mixed grouping of identical cells, five rows are connected in parallel and each row contains 10 cells. This combination sends a current I through an external resistance of 20Omega. if the emf and internal resistance of each cell is 1.5 V and 1 Omega, respectively then find the value of I.