ELECTRICITY
1. Electric Current (I)
- Flow of electric charge in a conductor.
- Rate of flow: I = Q / t
-
1 Ampere = 1 Coulomb / 1 sec
- Direction: Conventionally from Positive (+) to Negative (-). (Opposite to electron flow).
- Ammeter: Measures I. Connect in SERIES. Low resistance.
2. Potential Difference (V)
- Work done to move a unit charge from one point to another.
- Electric pressure difference.
-
V = W / Q
- SI Unit: Volt (V). (1 V = 1 Joule / 1 Coulomb).
- Voltmeter: Connect in PARALLEL. High resistance.
- Maintained by cell/battery.
Standard Circuit
Remember: Ammeter counts charge (Series). Voltmeter checks difference (Parallel).
3. Ohm’s Law & Resistance
- At constant temperature, potential difference (V) is directly proportional to current (I).
- V ∝ I → V = I R
- Resistance (R): Property to oppose current. SI Unit: Ohm (Ω).
- 1 Ohm: If 1A flows through a wire with 1V across it.
- Rheostat: Variable resistance device to control current.
Ohmic Conductor
4. Factors Affecting Resistance
- Length (l): Directly proportional (R ∝ l). Double length = Double R.
- Area (A): Inversely proportional (R ∝ 1/A). Thicker wire = Less R.
- Nature of Material: Resistivity (ρ).
- Temperature: R increases with Temp (for metals).
-
R = ρ (l / A)
- Resistivity (ρ): Characteristic property of material. Unit: Ωm.
- Metals: Low ρ (Good conductors).
- Alloys: Higher ρ than constituent metals. Don’t oxidize easily.
- Insulators: Very high ρ.
5. System of Resistors
A) Series Combination- Joined end-to-end.
- Current (I): Same in all resistors.
- Voltage (V): Sum of individual voltages ($V = V_1 + V_2…$).
- Rs = R1 + R2 + R3…
- Total R > Largest individual R (Maximum Resistance).
- Connected between two points.
- Voltage (V): Same across all.
- Current (I): Sum of branch currents ($I = I_1 + I_2…$).
- 1/Rp = 1/R1 + 1/R2…
- Total R < Smallest individual R (Minimum Resistance).
- Used in homes so appliances work independently!
6. Heating Effect of Current
- Electrical energy is dissipated as heat in a resistor.
- Joule’s Law of Heating:
- Heat (H) ∝ Square of current (I²).
- Heat (H) ∝ Resistance (R).
- Heat (H) ∝ Time (t).
-
H = I² R t
Practical Applications:
1. Bulb: Filament gets hot & emits light. Uses Tungsten (High MP: 3380°C). Filled with Nitrogen/Argon.
2. Fuse: Safety device. Wire of low MP (Pb-Sn). Melts if I > rating. Connect in Series.
3. Heater/Iron: Uses Nichrome (Alloy). High resistance, doesn’t burn (oxidize) at high temp.
1. Bulb: Filament gets hot & emits light. Uses Tungsten (High MP: 3380°C). Filled with Nitrogen/Argon.
2. Fuse: Safety device. Wire of low MP (Pb-Sn). Melts if I > rating. Connect in Series.
3. Heater/Iron: Uses Nichrome (Alloy). High resistance, doesn’t burn (oxidize) at high temp.
7. Electric Power (P)
- Rate at which electrical energy is consumed.
- P = V I
- Or P = I²R Or P = V²/R
- SI Unit: Watt (W). 1W = 1V × 1A.
- Commercial Unit of Energy: Kilowatt-hour (kWh) or ‘Unit’.
- Power × Time.
-
1 kWh = 1000 W × 3600 s
1 kWh = 3.6 × 10⁶ Joules