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# LEC/QFT-03 Space Time Transformations --- Lorentz Group

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## Repository-I :: Notes for Lectures [All Areas]

### Classical Mechanics

• NOTES/CM-01 Topics in Newtonian Mechanics
• NOTES/CM-02 Analytical Mechanics
• NOTES/CM-03 Action Principle
• NOTES/CM-04 Hamiltonian Form of Dynamics
• NOTES/CM-05 Spherically Symmetric Potentials
• NOTES/CM-06 Scattering
• NOTES/CM-07 Small Oscillations
• 7.1 Small Oscillations in One Dimension
• 7.2 Small Oscillations
• 7.3 Some Experiments on Small Oscillations
• 7.4 Lagrangian Formualtion of Small Oscillations
• 7.5 A Model of Vibrating Crystals
• NOTES/CM-08 Galilean Transformations, Non Inertial Frames
• 8.1 Rotations about Coordinate Axes
• NOTES/CM-09 Rigid Body Dynamics
• NOTES/CM-10 Canonical Transformations
• LEC/CM08-001 Canonical Transformations
• LEC/CM-08-002
• LEC/CM-08-003
• NOTES/CM-11 Hamilton Jacobi Theory

### Quantum Mechanics

QM-01 Classical Theories Revisited

QM-02 A Quick Review of Vector Spaces

QM-03 Inner Product Spaces

QM-04 Hilbert Spaces

QM-05 Rise of Quantum Mechanics

QM-06 General Structure of Quantum Mechanics

QM-07 Canonical Quantization

QM-08 Applications of Canonical Commutation Relations

QM-09 Time Evolution in Quantum Mechanics

QM-10 Coordinate and Momentum Representations

QM-11 Schrodinger Equation in Coordinate Representation

QM-12 Free Particle in One Dimension

QM-13 Potential Problems in One Dimension

QM-14 Problems in Higher Dimensions

QM-15 Methods of Exact Solution
QM-16 Spherically Symmetric Potential Problems

QM-18 Integral Equation, Born Approximation

QM-19 Partial Wave Analysis

QM-20 Spin and Identical Particles

QM-21 Rayleigh Ritz Variation Method

QM-22* Wentzel Kramers Brillouin Approximation
QM-23 Time Independent Perturbation Theory

QM-24 Approximation Schemes for Time Dependent Problems

QM-25 Semi Classical Theory of Radiation

QM-33 Relativistic Quantum Mechanics

### Special Theory of Relativity

 This is a repository of notes for class room lectures. The order of items in the Table of Contents is the order in which the items were created.The sequence of topics does not correspond to a logical, or any other particular order. Each item in a repository is a "no-frill" item. Comments of any sort, references or suggestions for reading, etc are not provided. The experts may find it useful for planning their course lectures and curriculum development. This collection is primarily meant for internal use of Proofs program.

Each Class Room Lecture Note in Physics and Mathematics, made available here, is focused on one aspect of a topic and is a self-contained, stand-alone, and no-frills document. No references are given, as all this knowledge is in the public domain. Also, no credit is claimed for presenting something that might actually be original.

This is consistent with the policies of the program to make the content available to everyone free online and open source. Having said this, if some content is included verbatim, a full reference will be provided. Use navigation links at the bottom, or in the Table of Contents, to start browsing

$$\triangleright$$  Table of Contents (top line) can be expanded;
The notes for  class room lectures in Physics and Mathematics, made available here, is focused on one aspect of a topic and is a self-contained, stand-alone, and no-frills document. No references are given, as all this knowledge is in the public domain. Also, no credit is claimed for presenting something that might actually be original. This is consistent with the policies of the program to make the content available to everyone free online and open source.
Having said this, if some content is included verbatim, a full reference will be provided.