Emf of each of 15 cells is 2V and internal resistance of each is `0.1 Omega`. The cells are arranged in a parallel combination containing 3 rows of 5 cells each. Determine the emf and internal resistance of the entire combination of cells.

n electric cells having emf e and internal resistance r each are connected in parallel.What is the emf of this combination?

n identical cells, each of emf e and internal resistance r, are first connected in series and then in parallel. What will be the ratio of the emfs and of the internal resistances of these two cell combinations?

Three resistances 8 Omega,20 Omega and 40 Omega are connected in parallel and the combination is joined to a cell of emf 2.1 V. IF current through the lowest resistances is 0.25A, determine the terminal resistance of the cell.

Emf, of a cell is 1.5 V and its internal resistance is 1 Omega When the cell sends current in an external circuit having resistance 2 Omega , then what will be the value of lost volt?

Two cells of emf E_1,E_2 and internal resistances r_1,r_2 respectively are connected in parallel combination. Determine the equivalent emf of the combination.

Emf of an electric cell is 1.5 V and its internal resistance Is 2 Omega . With this cell 1 Omega, 2 Omega and 10 Omega resistances are arranged in series .Determine the terminal potential differences of the resistances and the lost volt.

Two electric cells each of emf 1.5 V and internal resistance 2 Omega are connected in parallel and this combiantion of cells is connected with an external distance of 2 Omega . What will be the current in the external circuit?

Two cells one of emf 1.4 V and internal resistance 0.6 Omega the other of emf 2.5. V and internal resistance 0.3 Omega are connected in parallel and the combination is connected in series with an external resistance of 4 Omega . What is the current through this resistance?

Two cells of emf E_1.E_2 and internal resistance r_1 , r_2 respectively are connected to parallel combination. Determine the equivalent emf of the combination.

The electromotive force of a cell is 2V. The potential difference becomes 1.5 V when a resistance of 15 Omega is added to the two ends of the cell. Determine the internal resistance of the cell and the lost volt.