Introduction To Classical Field Theory
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Introduction to the Classical Theory of Particles and Fields
Author: Boris Kosyakov
language: en
Publisher: Springer Science & Business Media
Release Date: 2007-07-11
This volume is intended as a systematic introduction to gauge field theory for advanced undergraduate and graduate students in high energy physics. The discussion is restricted to the classical (non-quantum) theory in Minkowski spacetime. Particular attention has been given to conceptual aspects of field theory, accurate definitions of basic physical notions, and thorough analysis of exact solutions to the equations of motion for interacting systems.
Classical Field Theory
Author: Horaƫiu Năstase
language: en
Publisher: Cambridge University Press
Release Date: 2019-03-14
An introduction to classical field theory focusing on methods and solutions, providing a foundation for the study of quantum field theory.
Classical Field Theory
Author: Davison E. Soper
language: en
Publisher: Courier Dover Publications
Release Date: 2008-02-04
This text concerns continuum mechanics, electrodynamics and the mechanics of electrically polarized media, and gravity. Geared toward advanced undergraduates and graduate students, it offers an accessible approach that formulates theories according to the principle of least action. The chief advantage of this formulation is its simplicity and ease, making the physical content of classical subjects available to students of physics in a concise form. Author Davison E. Soper, a Professor of Physics at the University of Oregon, intended this treatment as a primary text for courses in classical field theory as well as a supplement for courses in classical mechanics or classical electrodynamics. Topics include fields and transformation laws, the principle of stationary action, general features of classical field theory, the mechanics of fluids and elastic solids, special types of solids, nonrelativistic approximations, and the electromagnetic field. Additional subjects include electromagnetically polarized materials, gravity, momentum conservation in general relativity, and dissipative processes.