lectures: <<back
Lecture 1: Course Outline & The State of a System.
Lecture 2: Historical Review: Experiments and Theories.
Lecture 3: Waves vs. Particles, Probability waves.
Lecture 4: Double slit to infinite slit experiments.
Lecture 5: Heisenberg's Uncertainty Relation and de Broglie Hypothesis
Lecture 6: Observables and Operators.
Lecture 7: Measuremeants in Quantum Mechanics.
Lecture 8: State Functions and Expectation Values.
Lecture 9: Time Development of the state function.
Lecture 10: Commutator Relations in Quantum Mechanics.
Lecture 11: Superposition Principle and Schrodinger's cat experiment.
Lecture 12: An introduction to the Hilber space.
Lecture 13: One dimensional potential step.
Lecture 14: One dimensional rectangular barrier
Lecture 15: Dirac Delta potential barrier
Lecture 16: Particle in a box problem (part-1)
Lecture 17: Particle in a box problem (part-2)
Lecture 18: Sudden perturbation & adiabatic perturbation.
Lecture 19: An introduction to wave packet dynamics.
Lecture 20: Born-Oppenheimer Approximation.
Lecture 21: Rigid rotor : quantum aspects
Lecture 22: Harmonic Oscillator vs. Morse Oscillator
Lecture 23: Light-Matter interactions.
Lecture 24: Experiment vs. Theory.