Introductory Quantum Chemistry
Introductory Quantum Chemistry. Instructor: Prof. K. L. Sebastian, Department of Inorganic and Physical Chemistry, IISc Bangalore. The course will introduce quantum mechanics as applied to chemistry and would be structured such that B.Sc. students can follow, provided they have familiarity with differential equations. Topics covered in this course include Introduction to quantum mechanics, Postulates of quantum mechanics, Particle in a box, Quantum tunneling, Harmonic oscillator, Hydrogen atom, Uncertainty principle, Angular momentum, and Chemical bonding.
(from nptel.ac.in )
Lecture 44 - Molecular Orbitals, The Hydrogen Molecule
VIDEO
Go to the Course Home or watch other lectures:
Introduction
Lecture 01 - Wave Particle Duality
Lecture 02 - Standing Waves
Lecture 03 - Path Integrals and Schrodinger Equation
Lecture 04 - Postulates of Quantum Mechanics, Part I
Lecture 05 - Postulates of Quantum Mechanics, Part II
Lecture 06 - Postulates of Quantum Mechanics, Part III
Simple Applications
Lecture 07 - Separating Variables and Particle in a Box
Lecture 08 - Particle in a Box (cont.)
Lecture 09 - Particle in a Box (cont.)
Lecture 10 - Particle in a Box: Time Dependent States, Expectation Values and Time Dependent States
Lecture 11 - Particle in a 3-dimensional Box
Lecture 12 - Particle in a Well of Finite Depth
Lecture 13 - Finite Well: Delta and Step Functions
Lecture 14 - Finite Well (cont.)
Tunneling and Harmonic Oscillator
Lecture 15 - Quantum Tunnelling
Lecture 16 - Tunnelling (cont.)
Lecture 17 - Schrodinger Equation for the Harmonic Oscillator
Lecture 18 - Harmonic Oscillator - The Series Solution
Lecture 19 - Harmonic Oscillator - Generating Function
Lecture 20 - Harmonic Oscillator - Orthogonality of Eigenfunctions
The Hydrogen Atom
Lecture 21 - Hydrogen Atom: Separating Centre of Mass Motion and Internal Motion
Lecture 22 - Hydrogen Atom: Polar Coordinates
Lecture 23 - Hydrogen Atom: Separating Centre of Variables
Lecture 24 - Hydrogen Atom: Finding the Functions Θ(θ) and Φ(φ)
Lecture 25 - Finding R(r)
Lecture 26 - Atomic Orbitals 1
Lecture 27 - Atomic Orbitals 2
Lecture 28 - Atomic Orbitals 3
Lecture 29 - Atomic Orbitals (cont.), Hermitian Operators
Uncertainty Principle, Angular Momentum
Lecture 30 - Measurement, Uncertainty Principle
Lecture 31 - Generalized Uncertainty Principle
Lecture 32 - Generalized Uncertainty Principle (cont.)
Lecture 33 - Angular Momentum
Lecture 34 - Angular Momentum (cont.)
Lecture 35 - Angular Momentum (cont.), Spin
Approximation Methods, Spin and Pauli Principle
Lecture 36 - Perturbation Theory
Lecture 37 - Perturbation Theory (cont.)
Lecture 38 - Variation Method: Introduction
Lecture 39 - Variation Method: Proof and Illustration
Lecture 40 - He Atom Wave Function with Spin Included - Pauli Principle
Chemical Bonding
Lecture 41 - Hydrogen Molecular Ion - Linear Variation Method
Lecture 42 - Hydrogen Molecular Ion (cont.)
Lecture 43 - Hydrogen Molecular Ion (cont.)
Lecture 44 - Molecular Orbitals, The Hydrogen Molecule
Lecture 45 - Molecular Orbital and Valence Bond Theory
Lecture 46 - Molecular Orbital Theory of Diatoms
Lecture 47 - Diatomics
Lecture 48 - Hybridization Huckel Theory
Lecture 49 - Huckel MO Theory (cont.)