# RRB ALP Stage-2 exam: Physics notes- CURRENT ELECTRICITY (PART 3)

**ELECTRICAL ENERGY AND POWER**

The rate at which electric energy is dissipated or consumed in an electric circuit is termed as electric power.

The power P is given by

**P = VI**

**Or**

**P = I²R = V²/R**

**The SI unit of electric power is**

**watt (W).**It is the power consumed by a device that carries 1 A of current when operated at a potential difference of 1 V. Thus,

**1 W = 1 volt × 1 ampere = 1 V A**

The commercial unit of electric energy is

**kilowatt hour (kW h),**commonly known as ‘unit’

**CELLS IN SERIES AND IN PARALLEL**

**Cell:**A cell is a device which generates electricity by using chemical energy. A cell has two electrodes, called the positive (P) and the negative (N),immersed in an electrolytic solution where the electrodes exchange charges with the electrolyte.

**Note:-**

- Current flows from cathode to anode through external circuit.
- Current flows from anode to cathode through electrolyte.

**EMF (Electromotive force):**It is defined as the potential difference between electrodes when there is no current in the cell.

- Emf of the cell initiates the flow of current in the cell.

**Internal Resistance:**It is the resistance offered by the electrolyte and electrodes when the current flows. It is denoted by 'r'

**Cells in Series**

When multiple cells are arranged in such a way that t

**he positive terminal of one cell is connected to the negative terminal of the other cell**and so on, it is known to be in series combination.

For two cells of emf’s E1 and E2 connected in series with r1, r2 as their internal resistances, the formula is given as:

**E equivalent = E1 + E2**

**r equivalent = r1 + r2**

The

**rule for cells arranged in series combination:**

(i) The equivalent emf of a series combination of n cells is just the sum of their individual emf’s, and

(ii) The equivalent internal resistance of a series combination of n cells is just the sum of their internal resistances.

**Cells in Parallel**

When cells are arranged in such a way that t

**he positive terminals of all the cells are connected together and all the negative terminals are connected together,**it is known to be in parallel combination.

For two cells of emf’s E1 and E2 connected in parallel with r1, r2 as their internal resistances, the formula is given as:

**1/r equivalent = 1/r₁ + 1/r₂**

**E equivalent/ r eq = E₁/r₁ + E₂/r₂**

**Important Note:-**

- Cells are arranged in series to increase the voltage.
- Cells are increased in parallel to increase the current.

**Example:**

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