Chapter 11: Electricity

11.1 Electric Current and Circuit

Electric Current: The rate of flow of electric charges. It is expressed by the amount of charge flowing through a particular area in unit time: I = Q/t.
SI Unit of Charge: The coulomb (C), which is equivalent to the charge contained in nearly 6 × 10¹⁸ electrons.
Electron Charge: An electron possesses a negative charge of 1.6 × 10^-19 C.
SI Unit of Current: The ampere (A), defined as the flow of one coulomb of charge per second (1 A = 1 C/s).
Direction of Current: Conventionally taken as opposite to the direction of the flow of electrons.

Electric Circuit: A continuous and closed path of an electric current.
Switch: A device that makes or breaks the conducting link between the cell and the load.
Ammeter: An instrument used to measure electric current in a circuit. It is always connected in series.

11.2 Electric Potential and Potential Difference

Potential Difference (V): The work done to move a unit charge from one point to another in an electric circuit: V = W/Q.
SI Unit: The volt (V), named after Alessandro Volta. One volt is defined when 1 joule of work is done to move a charge of 1 coulomb (1 V = 1 J/C).
Voltmeter: An instrument used to measure potential difference. It is always connected in parallel across the points of interest.

11.3 Circuit Diagram

Electric Cell & Battery: Represented by long (positive) and short/thick (negative) parallel lines.
Plug Key / Switch: Represented as open —( )— or closed —(•)—.
Resistor: Represented by a zigzag line.
Rheostat / Variable Resistance: Represented by a resistor symbol with an arrow through or across it.

11.4 Ohm's Law

Ohm's Law: The potential difference $V$ across the ends of a metallic wire is directly proportional to the current $I$ flowing through it, provided its temperature remains constant: V = IR.
Resistance (R): The property of a conductor to resist the flow of charges through it. Its SI unit is the ohm (Ω): R = V/I.
Variable Resistance: A component used to regulate current without changing the voltage source.

11.5 Factors on which Resistance Depends

Length: Resistance is directly proportional to the length of the conductor (R ∝ l).
Area of Cross-section: Resistance is inversely proportional to the area of cross-section (R ∝ 1/A).
Resistivity (ρ): A constant of proportionality representing the characteristic material property. Combined resistance formula: R = ρ(l/A).
SI Unit of Resistivity: The ohm-meter (Ω m). Metals and alloys have very low resistivity, whereas insulators have extremely high resistivity.

11.6 Resistance of a System of Resistors

Equivalent Resistance: The sum of individual resistances: R_s = R_1 + R_2 + R_3.
Current: The current remains constant and is the same through every part of the circuit.
Voltage: Total potential difference is divided: V = V_1 + V_2 + V_3.

Equivalent Resistance: Calculated by the sum of reciprocals: 1/R_p = 1/R_1 + 1/R_2 + 1/R_3.
Current: Total current splits across parallel branches: I = I_1 + I_2 + I_3.
Voltage: The potential difference remains the same across all parallel branches.

11.7 Heating Effect of Electric Current

Heating Effect: When current flows through a purely resistive circuit, the source energy is continuously dissipated entirely as heat.
Joule's Law: The heat produced in a resistor is directly proportional to the square of the current, the resistance, and the time of current flow: H = I²Rt.

Heating Devices: Electric laundry irons, toasters, ovens, and kettles use high-resistivity alloys that do not oxidise easily at high temperatures.
Electric Bulb: Uses tungsten (melting point 3380°C) as a filament to radiate heat and light, typically filled with inactive nitrogen/argon gas.
Fuse: A safety device placed in series to protect circuits by melting and breaking the circuit when current exceeds limit.

11.8 Electric Power

Electric Power (P): The rate at which electrical energy is consumed in a circuit: P = VI = I²R = V²/R.
SI Unit: The watt (W), where 1 W = 1 V × 1 A.
Commercial Unit of Energy: The kilowatt hour (kW h), commonly known as a "unit". 1 kW h = 3.6 × 10⁶ J.