Phase 1: FOUNDATIONS OF CLASSICAL & MODERN PHYSICS
Module 1: Classical Mechanics & Waves
Lecture 1: Physical Quantities, Units, & Dimensions
Lecture 2: Newton’s Laws of Motion & Applications
Lecture 3: Energy Conservation Laws
Lecture 4: Angular Momentum & Torque
Lecture 5: Simple Harmonic Motion (SHM)
Lecture 6: Wave Interference & Doppler Effect
Module 2: Electricity, Magnetism & Electromagnetism
Lecture 7: Coulomb’s Law, Electric Fields
Lecture 8: Ohm’s Law, Kirchoff’s Rules
Lecture 9: Ampère’s Law, Biot-Savart Law
Lecture 10: Faraday’s Law & Maxwell’s Equations
Lecture 11: Impedance, Resonance, and Power Factor
Lecture 12: Introduction to Maxwell’s Electromagnetic Wave Theory
Module 3: Thermodynamics & Statistical Physics
Lecture 13: First & Second Laws of Thermodynamics
Lecture 14: Carnot Cycle, Entropy
Lecture 15: Boltzmann’s Distribution, Maxwell’s Laws
Lecture 16: Bose-Einstein vs. Fermi-Dirac Distributions
Lecture 17: Latent Heat, Conductivity
Lecture 18: Real-World Applications in Industry
Module 4: Real-Time Operating Systems (RTOS) and Advanced Concepts
Lecture 19: Reflection, Refraction, Interference, & Diffraction
Lecture 20: Special & General Relativity
Lecture 21: Time Dilation & Length Contraction
Lecture 22: Wave-Particle Duality
Lecture 23: Photoelectric Effect & De Broglie Hypothesis
