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Fundamentals of Quantum Mechanics (PHYS-202/BS Physics 04 years)
Particle-like Properties of Electromagnetic Radiations: Black Body Radiation
Particle-like Properties of Electromagnetic Radiations: Black Body Radiation
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Course Material
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
Chapters
16
Department
Physics
Teacher