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Mod-01 Lec-01 Wave Paticle Duality

Mod-01 Lec-02 Standing Waves

Mod-01 Lec-03 Path Integrals and Schrodinger Equation

Mod-01 Lec-04 Postulates - Part1

Mod-01 Lec-05 Postulates - Part2

Mod-01 Lec-06 Postulates - Part3

Mod-02 Lec-07 Separting Variables and Particle in a Box

Mod-02 Lec-08 Particle in a box -Part2

Mod-02 Lec-09 Particle in a box -Part3

Mod-02 Lec-10 Particle in a box-time dependent states-Expectations values and time dependent states

Mod-02 Lec-11 Particle in a 3 dimensional box

Mod-02 Lec-12 Particle in a well of finite depth

Mod-02 Lec-13 Finite well, Delta and Step Functions

Mod-02 Lec-14 Finite well, Continued

Mod-03 Lec-15 Tunneling -part1

Mod-03 Lec16 Tunneling -part2

Mod-03 Lec-17 Schrodinger equation for Harmonic Oscillator

Mod-03 Lec-18 Harmonic Oscillator - The Series Solution

Mod-03 Lec-20 Harmonic Oscillator - Orthogonality of Eigenfunctions

Mod-03 Lec-19 Harmonic Oscillator - Generating function

Mod-04 Lec-21 Hydrogen Atom: Separating centre of mass motion and integral motion

Mod-04 Lec-22 Hydrogen Atom: Polar Co-ordinates

Mod-04 Lec-23 Hydrogen atom continued : Separation of variables

Mod-04 Lec-24 Hydrogen atom : Finding the functions Θ (θ) and Φ(φ)

Mod-04 Lec-25 Finding R(r)

Mod-04 Lec-26 Atomic Orbitals -Part 1

Mod-04 Lec-27 Atomic Orbitals -Part 2

Mod-04 Lec-28 Atomic Orbitals -Part 3

Mod-04 Lec-29 Atomic Orbitals -Part 4 and Hermitian Operators

Mod-05 Lec-30 Measurement, Uncertainty Principle

Mod-05 Lec-31 Generalized Uncertainty Principle

Mod-05 Lec-32 Generalized Uncertainty Principle - Continued

Mod-05 Lec-33 Angular Momentum

Mod-05 Lec-34 Angular Momentum - Continued

Mod-05 Lec-35 Angular Momentum - Continued and Spin

Mod-06 Lec-36 Pertubation Theory

Mod-06 Lec-37 Pertubation Theory - Continued

Mod-06 Lec-38 Variation Method - Introduction

Mod-06 Lec-39 Variation Method - Proof and Illustration

Mod-06 Lec-40 He atom wave function with spin included -Paulis principle

Mod-07 Lec-41 Hydrogen Molecular ion - Linear variation method

Mod-07 Lec-42 Hydrogen Molecular ion - continued

Mod-07 Lec-43 Hydrogen Molecular ion -continued

Mod-07 Lec-44 Molecuar Orbitals The Hydrogen Molecule

Mod-07 Lec-45 MO and VB theory

Mod-07 Lec-46 MO theory of diatoms

Mod-07 Lec-47 Di -atomics-continued

Mod-07 Lec-48 Hybridization Huckel theory

Mod-07 Lec-49 Huckel MO Theory continued

Description:

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.

Introductory Quantum Chemistry

NPTEL

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#Science #Chemistry #Physics #Quantum Mechanics #Angular Momentum #Wave-Particle Duality #Schrodinger Equation #Quantum Chemistry #Harmonic Oscillators #Uncertainty Principle

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