Differential Geometry and Lie Groups for Physicists
$196.00 (C)
 Author: Marián Fecko, Comenius University, Bratislava
 Date Published: October 2006
 availability: Available
 format: Hardback
 isbn: 9780521845076
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Hardback
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Differential geometry plays an increasingly important role in modern theoretical physics and applied mathematics. This textbook gives an introduction to geometrical topics useful in theoretical physics and applied mathematics, covering: manifolds, tensor fields, differential forms, connections, symplectic geometry, actions of Lie groups, bundles, spinors, and so on. Written in an informal style, the author places a strong emphasis on developing the understanding of the general theory through more than 1000 simple exercises, with complete solutions or detailed hints. The book will prepare readers for studying modern treatments of Lagrangian and Hamiltonian mechanics, electromagnetism, gauge fields, relativity and gravitation. Differential Geometry and Lie Groups for Physicists is well suited for courses in physics, mathematics and engineering for advanced undergraduate or graduate students, and can also be used for active selfstudy. The required mathematical background knowledge does not go beyond the level of standard introductory undergraduate mathematics courses.
Read more Complex ideas or computations are divided into a sequence of simple and clear statements which can then be easily grasped
 Much of the theory is illustrated through simple exercises (over 1000 altogether), with detailed hints
 Endofchapter summaries give important concepts, results and formulas
 Uses both standard mathematical and physical terminology, building a bridge between the jargons involved
Reviews & endorsements
"The contents of this book cover a lot (if not most) of what a theoretical physicist might wish to know about differential geometry and Lie groups."
HansPeter Künzle, Mathematical ReviewsSee more reviews"All basic material that is necessary for a young scientist in the field of geometrical formulation of physical theories is included … ordered and represented in a very appropriate manner … with a great respect to the reader. … I truly believe that reading this book will bring a real pleasure to all physically inclined young mathematicians and mathematically inclined young physicists … a very good high level textbook … [I] recommend it to all young scientists being interested in finding correspondence between harmony in the physical world and harmony in geometrical structures. … well written, very well ordered and the exposition is very clear."
Journal of Geometry and Symmetry in Physics"the contents of this book covers a lot (if not most) of what a theoretical physicist might wish to know about differential geometry and Lie groups. particularly useful may be that the modern formalism is always related to the classical one with tensor indices still mostly used in the physics literature."
American Mathematical Society"… the presentation is almost colloquial and this makes reading rather pleasant. The author has made a concerted effort to give intuitive interpretations of complicated ideas such as: the Lie derivative, tensors, the Hodge star operator, Lie group representations, Hamiltonian and Lagrangian mechanics, parallel transport, connections, curvature, gauge theories, spinors and Dirac operators. This will be much appreciated by students (and even researchers, I think). … an excellent reference for geometers."
Zentralblatt MATH"Marián Fecko deftly guides you through the material stepbystep, with all the rigor, but without the pain. When going through the chapters, definition by definition, proof by proof and hint by hint, you get an impression of a caring, experienced (and often quirkily funny, but never boring) tutor who really, really wants you to succeed."
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×Product details
 Date Published: October 2006
 format: Hardback
 isbn: 9780521845076
 length: 714 pages
 dimensions: 254 x 178 x 38 mm
 weight: 1.54kg
 availability: Available
Table of Contents
Introduction
1. The concept of a manifold
2. Vector and tensor fields
3. Mappings of tensors induced by mappings of manifolds
4. Lie derivative
5. Exterior algebra
6. Differential calculus of forms
7. Integral calculus of forms
8. Particular cases and applications of Stoke's Theorem
9. Poincaré Lemma and cohomologies
10. Lie Groups  basic facts
11. Differential geometry of Lie Groups
12. Representations of Lie Groups and Lie Algebras
13. Actions of Lie Groups and Lie Algebras on manifolds
14. Hamiltonian mechanics and symplectic manifolds
15. Parallel transport and linear connection on M
16. Field theory and the language of forms
17. Differential geometry on TM and T*M
18. Hamiltonian and Lagrangian equations
19. Linear connection and the frame bundle
20. Connection on a principal Gbundle
21. Gauge theories and connections
22. Spinor fields and Dirac operator
Appendices
Bibliography
Index.
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