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• Particle-like Properties of Electromagnetic Radiations: Black Body Radiation
• Plank’s Radiation Law and Quantum of Energy, Stefan’s Law and Wien’s Displacement Law
• Derivation of Stefan’s Law and Wien’s Displacement Law from Planck’s Radiation Law
• Quantization of Energy, Light Quantization and Photoelectric Effect. The Compton Effect.
• Wave-like Properties of Particles: Wave Nature of Matter and De-Broglie Hypothesis and its Experimental Verification
• Wave Packet and its Localizations in Space and Time, Heisenberg Uncertainty Principle and its Applications.
• Model of the Atom: Hydrogen Spectrum, Bohr Theory of Atomic Structure
• Bohr Theory of the Hydrogen Atom, Bohr Correspondence Principle
• Experimental Evidence for Quantization and Determination of Critical Potential (Frank-Hertz Experiment)
• Deficiencies of the Bohr Model Characteristics of Vector Atomic Model (Space Quantization, Angular Momenta and Magnetic Momenta)
• Orbital Angular Momentum. Quantum Mechanics
• Quantum Mechanics and its Postulates, Quantum Operators and their Properties
• Eigen Value and Eigen Functions, Schrödinger Wave Equation (Time Dependent
• Schrödinger Wave Equation (Time Independent),
• Application of Time Independent Schrödinger Wave Equation
• Probability Density using the Wave Function of the State