Distinguish between emf (E) and terminal voltage (V) of a cell having internal resistance 'r'.

Define internal resistance of a cell.

A battery consists of a variable number (n) of identical cells, each having an internal resistance r connected in series. The terminals of the battery are short - circuited. A graph of current (I) in the circuit verses the number of cells will be as shown in figure.

Name the instrument which can measure the emf of a cell and its internal resistance accurately.

Two cells of internal resistance r_1 and r_2 and of same emf are connected in series across a resistor of resistance R. If the terminal potential difference across the call of internal resistance r_1 is zero , then the value of R is

(a) Six lead acid type of secondary cells each of 2.0 V and internal resistance 0.015 omega are joined in series to provide a supply resistance of 8.5 omega what are the current drawn from the supply and its terminal voltage (b) A secondary cell after long use has an e.m of 1.9 V and largic internal resistance of 380 omega what maximum current can be draw from the cell ? Could the cell drive the starting motor of a car ?

In the electric circuit shown , each cell has an e.m.f. of 2V and internal resistance of 1 Omega . The external resistance is 2 Omega . The value of the current I is (in A).

A number of cells are to be grouped so as to obtain maximum current. The internal resistance of each cell is r and the total external resistance is R . Which of the following is wrong ?

A potentiometer wire has a resistance of 20 Omega and length 10 m. It is connected in series with a battery of emf 2.5 V and negligible internal resistance, and an external resistance of 5 Omega . Fall of potential in mV per metre is