A standard cell of EMF 1.08 is balanced by the potential differenc across `91 cm` of a meter long wire supplied by a cell of EMF 2V through a series resistor of resistance ` 2 Omega` . The internal resistance of the cell is zero. Find the resistance per unit length of potentiometer wire .

A standerd cell emf 1.08 V is balance by the potential difference across 91 cm of a meter long wire applied by a cell of emf 2 V through a series resistor of resistance 2 Omega . The internal resistance of the cell is zero. Find the resistance per unit length of the potentiometer wire.

A cell supplies a current of 2 A when it is connected to a 5 Omega resistance and supplies a current of 1.2 A, if it is connected to a resistance of 9 Omega . Find the e.m.f and internal resistance of the cell.

The wire of potentiometer has resistance 4 Omega and length 1m. It is connected to a cell of e.m.f. 2V and internal resistance 1 Omega . The current flowing through the potentiometer wire is

The plot of the variation of potential difference across a combination of three identical cells in series, versus current is as shown in figure. What is the emf and internal resistance of each cell?

The plot of the variation of potential difference across a combination of three identical cells in series, versus current is as shown in figure. What is the emf and internal resistance of each cell?

The potentiometer wire is of length 1200 cam and it carries a current of 60 mA. For a cell of emf 5V and internal resistance of 20Omega , the null point of it is found to be at 1000 cm.The resistance of potentiometer wire is

For a cell of e.m.f. 2 V , a balance is obtained for 50 cm of the potentiometer wire. If the cell is shunted by a 2Omega resistor and the balance is obtained across 40 cm of the wire, then the internal resistance of the cell is

A potentiometer with a cell of EMF 2 V and internal resistance 0.4 Omega is used across the wire AB . A standard cadmium cell of EMF 1.02 V gives a balance point at 66 cm length of wire. The standard cell is then replaced by a cell of unknows EMF e (internal resistance r ), and the balance. Point found similarly turns out to be 88 cm length of the wire. The length of potentiometer wire AB is 1 m . The value of e is

The cell has an emf of 2 V and the internal resistance of this cell is 0.1 Omega , it is connected to resistance of 3.9 Omega , the voltage across the cell will be

If E is the emf of a cell of internal resistance r and external resistance R, then potential difference across R is given as