Quantum Mechanics

Quantum Mechanics

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Product Specifications

Publisher PHI Learning All Engineering Physics books by PHI Learning
ISBN 9788120336353
Author: ARULDHAS, G.
Number of Pages 520
Edition Second Edition
Available
Available in all digital devices
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Quantum Mechanics - Page 1 Quantum Mechanics - Page 2 Quantum Mechanics - Page 3 Quantum Mechanics - Page 4 Quantum Mechanics - Page 5

About The Book Quantum Mechanics

Book Summary:

The Second Edition of this concise and compact text offers students a thorough understanding of the basic principles of quantum mechanics and their applications to various physical and chemical problems.

This book is recommended in Manipur University, Manipur, Dibrugarh University, Assam and Calcutta University for B.Sc..

This thoroughly class-texted material aims to bridge the gap between the books which give highly theoretical treatments and the ones which present only the descriptive accounts of quantum mechanics. Every effort has been made to make the book explanatory, exhaustive and student friendly. The text focuses its attention on problem-solving to accelerate the students grasp of the basic concepts and their applications.

What is new to this Edition :

Includes new chapters on Field Quantization and Chemical Bonding.

Provides new sections on Rayleigh Scattering and Raman Scattering.

Offers additional worked examples and problems illustrating the various concepts involved.

This textbook is designed as a textbook for postgraduate and advanced undergraduate courses in physics and chemistry.

Solutions Manual containing the solutions to chapter-end exercises is available for instructors.


Table of Contents:
Preface
Preface to the First Edition
1. Origin of the Quantum Theory
2. Wave Mechanical Concepts
3. General Formalism of Quantum Mechanics
4. One-Dimensional Energy Eigenvalue Problems
5. Three-Dimensional Energy Eigenvalue Problems
6. Heisenberg Method
7. Symmetry and Conservation Laws
8. Angular Momentum
9. Time-Independent Perturbation Theory
10. The Variation Method
11. WKB Approximation
12. Time-Dependent Perturbation Theory
13. Many Electron Atoms
14. Scattering
15. Relativistic Wave Equations
16. Elements of Field Quantization
17. Chemical Bonding
Appendices Bibliography
Answers to Problems
Index