NOC:Quantum Chemistry of Atoms and Molecules (USB)
Media Storage Type : 64 GB USB Stick
NPTEL Subject Matter Expert : Prof. Anindya Datta
NPTEL Co-ordinating Institute : IIT Bombay
NPTEL Lecture Count : 67
NPTEL Course Size : 37 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - Basic Introduction
Lecture 2 - Bohr Model and Beyond
Lecture 3 - The wave nature of matter
Lecture 4 - Ground Rules: Postulates of Quantum mechanics - Part I
Lecture 5 - Ground Rules: Postulates of Quantum mechanics - Part II
Lecture 6 - Particle in a box - Part I
Lecture 7 - Particle in a box - Part II
Lecture 8 - Particle in a box - Part III
Lecture 9 - Particle in a box - Uncertainity Priciple
Lecture 10 - Particle in a box - Uncertainity Priciple (Continued...)
Lecture 11 - Quantum Mechanical Tunneling
Lecture 12 - Harmonic Oscillator - Part 1
Lecture 13 - Harmonic Oscillator - Part 2
Lecture 14 - Harmonic Oscillator - Part 3
Lecture 15 - Harmonic Oscillators - Wave Functions and Recursion formulae
Lecture 16 - Harmonic Oscillators - Wave Functions and Recursion formulae (Continued...)
Lecture 17 - Harmonic Oscillators: Conclusions
Lecture 18 - Rigid Rotor - Part 1
Lecture 19 - Rigid Rotor - Part 2
Lecture 20 - Rigid Rotor - Part 3
Lecture 21 - Polar Plots of Spherical Harmonics
Lecture 22 - Angular Momentum
Lecture 23 - Angular Momentum (Continued...)
Lecture 24 - Hydrogen Atom: Schrodinger Equation
Lecture 25 - Hydrogen Atom: Schrodinger Equation (Continued...)
Lecture 26 - Hydrogen atom: Quantum numbers
Lecture 27 - Radial Probability distribution functions
Lecture 28 - Hydrogen atom wavefunctions: s orbitals
Lecture 29 - 2s orbital
Lecture 30 - 2p orbitals
Lecture 31 - 3pz and 3d orbitals
Lecture 32 - Atomic orbitals and orbital approximation
Lecture 33 - Multi electron atoms
Lecture 34 - He atom wavefunction
Lecture 35 - Excited states of many electron atoms
Lecture 36 - Introduction to Perturbation theory
Lecture 37 - Scope of Perturbation theory
Lecture 38 - Application of Perturbation theory: Anharmonic oscillator
Lecture 39 - Higher order perturbations
Lecture 40 - Perturbation theory for non-degenerate states
Lecture 41 - Perturbation Theory for degenerate states
Lecture 42 - Application of Perturbation Theory for degenerate States
Lecture 43 - Variation Method
Lecture 44 - Variational Method (Continued...)
Lecture 45 - Variational calculations for Harmonic Oscillator and Particle in a Box
Lecture 46 - Secular equations in Variational calculations
Lecture 47 - Secular equations for particle in a box
Lecture 48 - Variational calculation for particle in a box (Continued...)
Lecture 49 - Perturbation theory for many electron atoms
Lecture 50 - Variational method for many electron atoms
Lecture 51 - Hartree-Fock Equations and Self Consistent Fields
Lecture 52 - Hartree-Fock Equations for He - Part 1
Lecture 53 - Hartree-Fock Equations for He - Part 2
Lecture 54 - Electronic Wavefunctions of He atom
Lecture 55 - Valance Bond Theory and homonuclear diatomics - Part 1
Lecture 56 - Valance Bond Theory and homonuclear diatomics - Part 2
Lecture 57 - Molecular shape and hybrid orbitals
Lecture 58 - sp2 hybridization
Lecture 59 - sp3 hybridization
Lecture 60 - Non-equivalent hybrid orbitals
Lecture 61 - Molecular Orbital Theory for H2+
Lecture 62 - Molecular orbital theory for homonuclear diatomic molecules
Lecture 63 - Beyond Homonuclear diatomic molecules
Lecture 64 - MOT for polyatomic molecules
Lecture 65 - Huckel MOT-1
Lecture 66 - Huckel MOT-2
Lecture 67 - The last word