CLASSIC MECH & ELECTRO (2ND ED‪)‬

The book gives a general introduction to classical theoretical physics, in the fields of mechanics, relativity and electromagnetism. It is analytical in approach and detailed in the derivations of physical consequences from the fundamental principles in each of the fields. This second edition has a new part, namely Classical Field Theory. Highlighting a close connection between this part and earlier parts of the book, where particles, rather than fields are the center of attention.

As a general introduction to classical theoretical physics, the book is different from most textbooks at this level, which focus either on classical mechanics or classical electrodynamics but not both. The book will in particular be useful as a textbook for physics courses with such a broader approach to classical physics. For a wider group of students, the book may be of interest for self study. The new inclusion on classical field theory, will give students greater understanding on previous parts of the book, such as examining the Lagrangian formulation of Maxwell's equations with Noether's theorem. This is central in the use of Lagrangian on fields, as also discussed.

The text is illustrated with many figures, most of these in color. There are many useful examples and exercises which complement the derivations in the text.

Contents:
Analytical Mechanics:Generalized Coordinates Lagrange's EquationsHamiltonian DynamicsRelativity:The Four-Dimensional Space-TimeConsequences of the Lorentz TransformationsFour-Vector Formalism and Covariant EquationsRelativistic KinematicsRelativistic DynamicsElectrodynamics:Maxwell's EquationsElectromagnetic Field DynamicsMaxwell's Equations with Stationary SourcesElectromagnetic RadiationClassical Field Theory:Lagrangian and Hamiltonian FormulationsSymmetry TransformationsRelativistic Fields
Readership: The book is aimed as a general introduction to classical theoretical physics at the level of a senior level undergraduate course or first year graduate course.

Key Features: A general introduction to classical theoretical physics, differentiating it from other books focused on either classical mechanics or classical electrodynamics Provides explicit and detailed derivations of the physical effects from basic principles Includes many illustrations, relevant examples and exercises A new part on Classical Field Theory that treats Maxwell and Klein–Gordon fields with Lagrange formulations