Special Relativity, Electrodynamics, and General Relativity (2nd Ed.) From Newton to Einstein
Auteur : Kogut John B.
Special Relativity, Electrodynamics, and General Relativity: From Newton to Einstein is intended to teach students of physics, astrophysics, astronomy, and cosmology how to think about special and general relativity in a fundamental but accessible way. Designed to render any reader a "master of relativity, all material on the subject is comprehensible and derivable from first principles. The book emphasizes problem solving, contains abundant problem sets, and is conveniently organized to meet the needs of both student and instructor.
1. Physics According to Newton - A World with No Speed Limit2. Space-Time Measurements According to Einstein3. Visualizing Relativity—Minkowski Diagrams and the Twins4. Lorentz Transformations (boosts), Addition of Velocities, and Invariant Intervals5. Illustrations and Problems in Space-Time Measurements6. Relativistic Dynamics. First Steps.7. Acceleration and Forces in Relativity. The Birth of Dynamical Fields.8. Boosting the Electrostatic Force, Electromagnetic Fields and More on Four Vectors9. Maxwell’s Equations of Electrodynamics and the Wave Equation10. Magnetism in the Lab, the Discovery of Relativity and the Way Forward11. Introduction to General Relativity12. Curvature, Strong Gravity and Gravitational Waves
Appendix A. Physical Constants, Data, and Conversion FactorsB. Solutions to Selected Problems C. Mathematics BackgroundD. Theorems and Concepts of Vector CalculusE. Summary of FormulasF. The Wave Equation with Sources. The Four Vector Potential and the Lorenz GaugeG. Equation of Motion in Curved Space and Christoffel Symbols, Two Dimensional Surfaces and the Geodesic Deviation and Gravity Waves
Students in (astro)physics, astronomy and cosmology who want to understand general and special relativity theory
- Fully revised and expanded second edition with improved figures
- Enlarged discussion of dynamics and the relativistic version of Newton’s second law
- Resolves the twin paradox from the principles of special and general relativity
- Includes new chapters which derive magnetism from relativity and electrostatics
- Derives Maxwell’s equations from Gauss’ law and the principles of special relativity
- Includes new chapters on differential geometry, space-time curvature, and the field equations of general relativity
- Introduces black holes and gravitational waves as illustrations of the principles of general relativity and relates them to the 2015 and 2017 observational discoveries of LIGO
Date de parution : 01-2018
Ouvrage de 454 p.
15x22.8 cm
Thèmes de Special Relativity, Electrodynamics, and General Relativity :
Mots-clés :
Action and reaction; Ampere-Maxwell's law; Apparent forces; Causality; Centripetal forces; Christoffel symbols; Conservation laws; Contravariant; Coriolis forces; Coulomb's law; Covariance; Covariant; Current conservation; Dark energy; Differential equation; Differential geometry; Doppler effect; Einstein tensor; Electric current; Electric fields; Electromagnetic field strength tensor; Energy-momentum; Equivalence principle; Faraday's law; Fields; Four-vectors; Galileo; Gauge theories; Gauss' Gauss-Bonnet theorem; Gauss; Gaussian curvature; General relativity; Geodesic equation; Gravitational lensing; Gravitational redshift; Gravitational waves; Gravitons; Invariant interval; Light cone; LIGO experiment; Local; Locality; Lorentz contraction; Lorentz force law; Lorentz transformations; M�ssbauer effect; Magnetic fields; Magnetic forces; Magnetism; Metric; Minkowski diagram; Minkowski diagrams; Momentum conservation; Newton's third law; Newton; Relativistic matter; Relativistic paradoxes; Relativistic tidal forces; Relativistic velocity addition; Relativity; Riemann tensor; Rotating reference frames; Schwarzschild black hole; Schwarzschild metric; Simultaneity; Space station; Speed of light; Stoke's theorem; Symmetry; theorem; Tidal forces; Time dilation; Twin paradox; Universal speed limit; Wave equation