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Principles of Physical Cosmology

P. J. E. Peebles

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Naturwissenschaften, Medizin, Informatik, Technik / Thermodynamik

Beschreibung

The classic introduction to physical cosmology from Nobel Prize–winning physicist P. J. E. Peebles

Principles of Physical Cosmology is the essential introduction to this critical area of modern physics, written by a leading pioneer who has shaped the course of the field for decades. P. J. E. Peebles provides an authoritative overview of the field, showing how observation has combined with theory to establish the science of physical cosmology. He presents the elements of physical cosmology, including the history of the discovery of the expanding universe; surveys the cosmological tests that measure the geometry of space-time, with a discussion of general relativity as the basis for these tests; and reviews the origin of galaxies and the large-scale structure of the universe. Now featuring Peebles's 2019 Nobel lecture, Principles of Physical Cosmology remains an indispensable reference for students and researchers alike.

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Schlagwörter

Available energy (particle collision), Power law, Einstein field equations, Neutrino, Galaxy rotation curve, Cross section (physics), Mass concentration (astronomy), Matter creation, Theoretical physics, Apparent magnitude, Lambda-CDM model, Temperature, Quantum mechanics, Newton's law of universal gravitation, Cosmic string, Special relativity, Chronology of the universe, Quantum field theory, Metric expansion of space, Velocity dispersion, Energy–momentum relation, Quantization (physics), Cosmological constant, Distance measures (cosmology), Quantum fluctuation, Gravitational constant, Gravitational potential, Physical cosmology, Cosmic background radiation, Gravitational field, Einstein–de Sitter universe, Cosmological principle, Perturbation theory (quantum mechanics), Physics beyond the Standard Model, Classical mechanics, Quantum cosmology, Scalar (physics), Number density, Effective mass (solid-state physics), Gravitational wave, Mass concentration (chemistry), Antimatter, Domain wall (magnetism), Structure formation, Wavelength, Correlation function, Density, Gravitational lens, Baryon, Neutron, Energy density, Mach's principle, Observable universe, Mass distribution, Recombination (cosmology), Photon, Order of magnitude, Astrophysics, Plasma cosmology, Tests of general relativity, Hubble's law, Particle physics, Superluminal motion, Galaxy cluster, Anisotropy, Stress–energy tensor, Gravitational acceleration, Ionization, Einstein notation, Spiral galaxy