Two cells X and Y are connected to a resistance of `10Omega` shown in the figure. The terminal voltage of cell Y is:-

For a cell terminal potential difference is 2.2 V when circuit is open and reduces to 1.8V when cell is connected to a resistance of R= 5Omega then determine internal resistance of cell is:-

A regular pyramid of square is made of eight identical wires each resistance 12 Omega shown in the figure. The terminals A and B are the mid-point of the corresponding sides. Find equivalent resistances between the terminals A and B in ohms.

The internal resistance of a cell of emf 4 V is 0.1 Omega . It is connected to a resistance of 3.9 Omega . The voltage across the cell will be

The potential difference between the terminals of a cells is found to be 3 volts when it is connected to a resistance equal to its internal resistance. The e.m.f. of the cell is:-

A cell of e.m.f. 2V and negligible internal resistance is connected to resistor R_(1) and R_(2) as shown in the figure. The resistance of the Voltmeter R_(1) and R_(2) are 80Omega,40Omega and 80Omega respectively. The reading of the voltmeter is:-

Four identical cells each of emf 2V, are joined in parallel providing supply of current to external circuit consisting of two 15 Omega resistors joined in parallel. The terminal voltage of the cells ae read by an ideal voltmeter is 1.6V. Calculate the internal resistance of each cell.

For open circuit condition what is value of terminal voltage of cell ?

For cell with non zero (finite) internal resistance write relation between terminal voltage and emf of cell.