About This Course

Symmetry is very important in chemistry researches and group theory is the tool that is used to determine symmetry.As Cotton defines it in his book, when we do a symmetry operation to a molecule, every points of the molecule will be in an equivalent position....

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Course Curriculum

12 Sections | 67 Lecture | 30h 16min total length

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Week 1

| 02h 21min total length

Lecture 1 : Symmetry point group Introduction
33m
Lecture 2 : Symmetry point group Examples Part I
33m
Lecture 3 : Symmetry point group Examples Part II
16m
Lecture 4 : Symmetry point group Examples Part III
28m
Lecture 5 : Symmetry point group Examples Part IV
29m

Week 2

| 01h 47min total length

Lecture 6 : Transformation matrices and Matrix representation
16m
Lecture 7 : More on Matrix representation Cartesian coordinates in C2v point group
32m
Lecture 8 : Matrix representation the way ahead
12m
Lecture 9 : Introduction to Group Theory
29m
Lecture 11 : Groups and subgroup
16m

Week 3

| 02h 03min total length

Lecture 12 : Classes, Similarity transformations
26m
Lecture 13 : Introduction to Matrices
28m
Lecture 14 : Application of matrices in solution of simultaneous equations
28m
Lecture 15 : Matrix eigenvalue equation
25m
Lecture 16 : Matrix eigenvalue equation an example
15m

Week 4

| 02h 37min total length

Lecture 17 : Similarity Transformations
30m
Lecture 18 : Back to transformation matrices
26m
Lecture 19 : Matrix representation revisited
23m
Lecture 20 : Function space and Transformation Operators
23m
Lecture 21 : Transformation Operators form the same group as transformation matrices
28m
Lecture 22 : Transformation Operators form a unitary representation for orthonormal basis
24m

Week 5

| 02h 08min total length

Lecture 23 : Transformation Operators Switching Bases
21m
Lecture 24 : Equivalent representations
19m
Lecture 25 : Unitary Transformation
30m
Lecture 26 : Unitary Transformations-Continued
33m
Lecture 27 : Reducible and Irreducible Representations
22m

Week 6

| 03h 33min total length

Lecture 28 : Irreducible Representations and Great Orthogonality Theorem
1h 74 min
Lecture 29 : Character Tables: C2v
25m
Lecture 30 : Character Tables C2v and C3v
31m
Lecture 31 : Practice Session: Review of Some Questions and Solutions
26m
Lecture 32 : Reducible to Irreducible Representations
30m
Lecture 33 : Character Tables of Cyclic Groups
25m

Week 7

| 02h 19min total length

Lecture 34 : Symmetry of Normal Modes: D3h
28m
Lecture 35 : Symmetry of Normal Modes D3h Continued
26m
Lecture 36 : Symmetry of Normal Modes a shortcut
9m
Lecture 37 : Recap Reducible Representation for Normal Modes
20m
Lecture 38 : Contribution of internal motion to normal modes
32m
Lecture 39 : Normal mode analysis some examples
23m

Week 8

| 02h 45min total length

Lecture 40 : Infrared and Raman spectroscopy
18m
Lecture 41 : IR and Raman activity
33m
Lecture 42 : IR and Raman activity examples
33m
Lecture 43 : Symmetry Adapted Linear Combinations (SALC)
34m
Lecture 44 : SALC BeH2
22m
Lecture 45 : SALC CH4 Introduction
23m

Week 9

| 02h 45min total length

Lecture 46 : SALC CH4
38m
Lecture 47 : Projection Operators
24m
Lecture 48 : Projection Operators? Continued
19m
Lecture 49 : Generating SALC using Projection?
19m
Lecture 50 : Generating SALC using Projection Operators Continued
36m
Lecture 51 : Oh complex and Group subgroup relation
27m

Week 10

| 02h 40min total length

Lecture 52 : Group-Subgroup Relation
15m
Lecture 53 : SALCs as Pi MO andCyclopropenyl group
31m
Lecture 54 : SALCs as Pi MO Cyclopropenyl group
26m
Lecture 55 : SALCs as Pi MO Benzene
34m
Lecture 56 : LCAO Huckel approximation
30m
Lecture 57 : Huckel approximation Naphthalene
21m

Week 11

| 03h 06min total length

Lecture 58 : Stationary states, Multiplicity, Ethylene
42m
Lecture 59 : Napthalene I
28m
Lecture 60 : Napthalene? II
28m
Lecture 61 : Napthalene III
24m
Lecture 62 : Transition Metal Complexes CFT and LFT
31m
Lecture 63 : Jahn-Teller Theorem, Tetragonal Distortion MOT ML6 Sigma and Pi Bonds?
30m

Week 12

| 02h 05min total length

Lecture 64 : MOT approach of bonding,H2O,Ferrocene
24m
Lecture 65 : MOT approach of bonding,H2O,Ferrocene
17m
Lecture 66 : Derivation Great Orthogonality Theorem I?
23m
Lecture 67 : Derivation: Great Orthogonality Theorem? II
25m
Lecture 68 : Derivation Great Orthogonality Theorem III
34m

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