Exploring Classical Mechanics - G. L. Kotkin, V. G. Serbo

Exploring Classical Mechanics

A Collection of 350+ Solved Problems for Students, Lecturers, and Researchers - Second Revised and Enlarged English Edition
Buch | Softcover
400 Seiten
2020
Oxford University Press (Verlag)
978-0-19-885379-4 (ISBN)
53,60 inkl. MwSt
This widly used text teaches analytical mechanics, the first chapter in the study of theoretical physics. Its methods and ideas are crucially important as they form the basis of all other branches of theoretical physics including quantum mechanics, statistical physics, and field theory. Most of the problems are original to this book.
This new edition of a popular textbook offers an original collection of problems in analytical mechanics. Analytical mechanics is the first chapter in the study and understanding of theoretical physics. Its methods and ideas are crucially important, as they form the basis of all other branches of theoretical physics, including quantum mechanics, statistical physics, and field theory. Such concepts as the Lagrangian and Hamiltonian formalisms, normal oscillations, adiabatic invariants, Liouville theorem, and canonical transformations lay the foundation, without which any further in-depth study of theoretical physics is impossible. Wherever possible, the authors draw analogies and comparisons with similar processes in electrodynamics, quantum mechanics, or statistical mechanics while presenting the solutions to the problems.

The book is based on the authors' many years of experience delivering lectures and seminars at the Department of Physics at Novosibirsk State University -- totalling an impressive 110+ years of combined teaching experience. Most of the problems are original, and will be useful not only for those studying mechanics, but also for those who teach it.

The content of the book corresponds to and roughly follows the mechanics course in the well-known textbooks by Landau and Lifshitz, Goldstein, or ter Haar. The Collection... starts with the Newtonian equations, motion in a central field, and scattering. Then the text proceeds to the established, traditional sections of analytical mechanics as part of the course on theoretical physics: the Lagrangian equations, the Noether theorem, linear and nonlinear oscillations, Hamilton formalism, and motion of a solid body.

As a rule, the solution of a problem is not complete by just obtaining the required formulae. It's necessary to analyse the result. This can be an interesting process of discovery for the student and is by no means a "mechanical'' part of the solution. It is also very useful to investigate what happens if the conditions of the problem are varied. With this in mind, the authors offer suggestions of further problems at the end of several solutions.

First published in 1969 in Russian, this text has become widely used in classrooms around the world. It has been translated into several languages, and has seen multiple editions in various languages.

Gleb L. Kotkin graduated from the Physics Department of Moscow State University in 1958. Since 1962, he has taught at Novosibirsk State University, where he is currently a full professor and Chair of Theoretical Physics. He has authored six monographs. Prof. Kotkin has also published around 100 scientific works. Among them there are two papers about photon-photon colliders with citation indexes of 749 and 606. Valeriy G. Serbo graduated from the Physics Department of Leningrad State University in 1962. Since 1965, he has taught at Novosibirsk State University, where he is currently a full professor and Chair of Theoretical Physics. He has been awarded the recognition of Honored Worker in Higher Education of the Russian Federation. He has authored five monographs and more than 150 scientific papers. Among them there are such widely known works as the review in Physics Reports ("The two-photon particle production mechanism ...") and two papers about photon-photon colliders, with citation indexes 1218, 749, and 606 respectively. He has been a visiting professor at a number of universities, including the University of Heidelberg, University of Milan, University of Paris VI, University of Minnesota, and scientific institutions such as Helmholtz-Institute Jena and Stanford Linear Accelerator Center.

1: Integration of one-dimensional equations of motion
2: Motion of a particle in three-dimensional fields
3: Scattering in a given field. Collision between particles
4: Lagrangian equations of motion. Conservation laws
5: Small oscillations of systems with one degree of freedom
6: Small oscillations of systems with several degrees of freedom
7: Oscillations of linear chains
8: Non-linear oscillations
9: Rigid-body motion. Non-inertial coordinate systems
10: Hamiltonian equations of motion. Poisson brackets
11: Canonical transformations
12: The Hamilton-Jacobi equation
13: Adiabatic invariants

Erscheinungsdatum
Zusatzinfo 197 grayscale line figures
Verlagsort Oxford
Sprache englisch
Maße 172 x 247 mm
Gewicht 732 g
Themenwelt Naturwissenschaften Physik / Astronomie Mechanik
Technik Maschinenbau
ISBN-10 0-19-885379-3 / 0198853793
ISBN-13 978-0-19-885379-4 / 9780198853794
Zustand Neuware
Haben Sie eine Frage zum Produkt?
Mehr entdecken
aus dem Bereich