Class-12th Ch-3 (Current Electricity)

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📘 Class 12 Physics – Chapter 3: Current Electricity (Notes)

1. Electric Current (I)

  • Definition: Flow of electric charge per unit time.

  • Formula: I = q / t

  • Unit: Ampere (A)

  • Current direction: From positive to negative (conventional current)

2. Drift Velocity (v_d)

  • Definition: Average velocity of free electrons under electric field.

  • Formula: v_d = (e × E × τ) / m

  • Also, I = n × A × e × v_d
    Where:

  • n = number of electrons per unit volume

  • A = area of cross-section

  • e = electron charge

  • τ = relaxation time

  • m = mass of electron

3. Ohm’s Law

  • Statement: Current is directly proportional to voltage (if temperature is constant).

  • Formula: V = I × R

  • R = Resistance (in ohms Ω)

4. Resistance and Resistivity

  • Formula: R = ρ × (l / A)
    Where:

  • R = resistance

  • ρ = resistivity

  • l = length of conductor

  • A = cross-sectional area

  • Resistivity is material-specific. Unit: ohm meter (Ω·m)

5. Effect of Temperature on Resistance

  • For metals: Resistance increases with temperature

  • For semiconductors: Resistance decreases with temperature

6. Resistors in Series and Parallel

  • Series: R_eq = R₁ + R₂ + R₃ + ...

  • Parallel: 1 / R_eq = 1 / R₁ + 1 / R₂ + ...

7. EMF and Internal Resistance of a Cell

  • EMF (E): Maximum voltage of a cell (no current condition)

  • Terminal voltage: V = E - I × r
    Where:

  • r = internal resistance

  • I = current in circuit

8. Kirchhoff’s Laws

  • KCL (Current Law): Sum of currents entering a junction = sum leaving
    ΣI_in = ΣI_out

  • KVL (Voltage Law): Sum of voltages in a closed loop = 0
    ΣV = 0

9. Wheatstone Bridge

  • Used to find unknown resistance.

  • Balanced bridge condition:
    P / Q = R / S
    (If bridge is balanced, no current flows through galvanometer)

10. Meter Bridge

  • Based on Wheatstone Bridge principle

  • Used to calculate unknown resistance using balancing length

11. Potentiometer

  • Measures EMF of cells or compares EMFs

  • More accurate than voltmeter (no current drawn from cell)

  • Principle: Potential difference ∝ length of wire
    V ∝ L

Key Concepts Summary:

  • Current = charge/time

  • Resistance depends on material, length, area, temperature

  • Ohm’s law applies to ohmic conductors

  • Kirchhoff’s laws help solve complex circuits

  • Potentiometer and bridge methods are precise tools for measurement

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What Will You Learn?

  • 📖 What Will I Learn in Chapter 3 – Current Electricity?
  • ✅ Understand the concept of electric current and how charges flow in a conductor
  • ✅ Learn about drift velocity, mobility, and their relationship with current
  • ✅ Apply Ohm’s Law to find relationships between voltage, current, and resistance
  • ✅ Explore how resistance changes with length, area, material, and temperature
  • ✅ Understand the resistivity of different materials and its significance
  • ✅ Analyze circuits with resistors in series and parallel combinations
  • ✅ Grasp the concept of electromotive force (EMF) and internal resistance of cells
  • ✅ Use Kirchhoff’s Laws to solve complex electrical networks
  • ✅ Study practical measurement techniques like the Wheatstone Bridge, Meter Bridge, and Potentiometer
  • ✅ Apply concepts to real-life electrical devices and understand how circuits work in practice

Course Content

Class-12th Physics Ch-3 (Current Electricity)

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