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?

5 electric cells are connected in series .Emf of each cell is 1.5 V and internal resistance is 0.1 Omega .When this combination of cells is connected with an external circuit of resistance 4 Omega, what will be the current through that resistance? What resistance should be connected instead of 4 Omega so that the current will be halved?

Emf of an electric cell is 2.1 V and its internal resistance is 0.1 Omega . When the two poles of the cell are connected with an external resistance, a potential difference of 2.08 V is obtained. Determine the value of the external resistance.

48 similar cells each of emf 1.5V and internal resistance 2 Omega are used for sending current through a resistance of 6 Omega . What will be the current if the cells are connected in the following way: 6 rows and 8 cells in a row

48 similar cells each of emf 1.5V and internal resistance 2 Omega are used for sending current through a resistance of 6 Omega . What will be the current if the cells are connected in the following way: 4 rows and 12 cells in a row

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?

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.