Gravity: Newtonian, Post-Newtonian, RelativisticCambridge University Press, 29 may 2014 - 780 páginas This textbook explores approximate solutions to general relativity and their consequences. It offers a unique presentation of Einstein's theory by developing powerful methods that can be applied to astrophysical systems. Beginning with a uniquely thorough treatment of Newtonian gravity, the book develops post-Newtonian and post-Minkowskian approximation methods to obtain weak-field solutions to the Einstein field equations. The book explores the motion of self-gravitating bodies, the physics of gravitational waves, and the impact of radiative losses on gravitating systems. It concludes with a brief overview of alternative theories of gravity. Ideal for graduate courses on general relativity and relativistic astrophysics, the book examines real-life applications, such as planetary motion around the Sun, the timing of binary pulsars, and gravitational waves emitted by binary black holes. Text boxes explore related topics and provide historical context, and over 100 exercises present challenging tests of the material covered in the main text. |
Índice
Foundations of Newtonian gravity | 1 |
Structure of selfgravitating bodies | 63 |
Newtonianorbitaldynamics | 138 |
Minkowskispacetime | 189 |
Curvedspacetime | 217 |
Formulation | 290 |
Implementation | 328 |
Fundamentals | 371 |
System of isolated bodies | 414 |
PostNewtonian celestial mechanics astrometry and navigation | 480 |
Gravitationalwaves | 539 |
Radiative losses and radiation reaction | 624 |
Alternative theories of gravity | 699 |
| 760 | |
| 771 | |
Términos y frases comunes
acceleration angular momentum approximation back in Sec binary body body's calculate center-of-mass Christoffel symbols components computation conservation constant contribution d³x defined derivatives differential displayed in Eq dynamics Einstein Einstein field equations energy energy-momentum tensor equations of motion Euler's equation evaluated expansion expression field equations fluid element frame function gaß gauge geodesic gravitational field gravitational potentials gravitational waves gravitational-wave harmonic implies inertial insert involving Keplerian M₁ mass density measured metric multipole moments near-zone neutron stars Newtonian potential observer obtain orbital elements parameter particle pericenter perturbation post-Minkowskian post-Newtonian post-Newtonian expansion quadrupole radiation radiative radius relativistic relativity Riemann tensor rotating solution spatial spherical spin surface integral symmetric theory tidal transformation vanishes variables vector velocity virial theorem wave equation wave zone world line αβ ταβ