Black holes, white dwarfs, and neutron stars: the physics of compact objects
This self-contained textbook brings together many different branches of physics--e.g. nuclear physics, solid state physics, particle physics, hydrodynamics, relativity--to analyze compact objects. The latest astronomical data is assessed. Over 250 exercises.
39 pages matching angular momentum in this book
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accretion disk adiabatic index angular momentum approximation assuming baryon binary system binary X-ray black hole calculation Chandrasekhar Chapter collapse compact objects compact star configuration constant cooling coordinate corresponding Coulomb Crab Crab pulsar Cyg X-l derived determined discussion effects electrons emission emitted equation equilibrium example Exercise factor Fermi Figure flow fluid flux function Galactic given gives gravitational field gravitational radiation gravitational waves hydrostatic equilibrium instability integral interaction lattice limit luminosity magnetic field metric neutrino neutron drip neutron star Newtonian nonrelativistic nuclear nuclei nucleons number density observed optical orbit parameter particles perturbation photon pion pion condensation plasma pnuc polytrope pressure pulsar pulse quantity quark radius reactions region relativistic relativity rest-mass result rotating Schwarzschild Section Show spacetime spectrum spherical spin stable stellar superfluid supermassive supernova surface temperature thermal timescale vector Vela velocity white dwarfs X-ray pulsars X-ray sources