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Nuclear and Particle Physics Introductory Nuclear Physics by S. S. M. Wong, A comprehensive, unified treatment of present-day nuclear physics the fresh edition of a classic text/reference. "A fine and thoroughly up-to-date textbook on nuclear physics . . . most welcome." Physics Today (on the First Edition). What sets Introductory Nuclear Physics apart from other books on the subject is its presentation of nuclear physics as an integral part of modern physics. Placing the discipline within a broad historical and scientific context, it makes important connections to other fields such as elementary particle physics and astrophysics. Now fully revised and updated, this Second Edition explores the changing directions in nuclear physics, emphasizing new developments and current research from superdeformation to quark-gluon plasma. Author Samuel S.M. Wong preserves those areas that established the First Edition as a standard text in university physics departments, focusing on what is exciting about the discipline and providing a concise, thorough, and accessible treatment of the fundamental aspects of nuclear properties. In this new edition, Professor Wong: Includes a chapter on heavy-ion reactions from high-spin states to quark-gluon plasma Adds a new chapter on nuclear astrophysics Relates observed nuclear properties to the underlying nuclear interaction and the symmetry principles governing subatomic particles Regroups material and appendices to make the text easier to use Lists Internet links to essential databases and research projects Features end-of-chapter exercises using real-world data. Introductory Nuclear Physics, Second Edition is an ideal text for courses in nuclear physics at the senior undergraduate or first-yeargraduate level. It is also an important resource for scientists and engineers working with nuclei, for astrophysicists and particle physicists, and for anyone wishing to learn more about trends in the field.
Compact Stars: Nuclear Physics, Particle Physics and General Relativity by Norman K. Glendenning, Neutron stars are the smallest densest stars known, with densities some trillion times that of the Earth. They rotate with periods of fractions of a second, and their magnetic fields drive intense interstellar dynamos, lighting up entire nebulae. This book discusses the physics of these extreme objects, and reviews the essential aspects of nuclear and particle physics. This second edition has been thoroughly revised and brought up-to-date, with several new sections on Bose condensates in neutron stars and on phase transitions.
Timeline of quantum mechanics, molecular physics, atomic physics, nuclear physics, and particle physics - Timeline of quantum mechanics, molecular physics, atomic physics, nuclear physics, and particle physics List of accelerators in particle physics - A list of particle accelerators used for particle physics experiments. Some early particle accelerators that more properly did nuclear physics, but existed prior to the separation of particle physics from that field, are also included. Subatomic particle - A subatomic particle is a particle smaller than an atom: it may be elementary or composite. Particle physics and nuclear physics concern themselves with the study of these particles, their interactions, and matter made up of them which do not aggregate into atoms. National Nuclear Data Center - The National Nuclear Data Center (NNDC) provides information services in the fields of low and medium energy nuclear physics to users in the United States and Canada. In particular, the Center can provide information on neutron, charged-particle, and photonuclear reactions, nuclear structure, and decay data. nuclearandparticlephysicsIt is also an important resource for scientists and engineers working with nuclei, for astrophysicists and particle physics. "A fine and thoroughly up-to-date textbook on nuclear physics . . . . . . Timeline of quantum mechanics, molecular physics, atomic physics, nuclear physics, emphasizing new developments and current research from superdeformation to quark-gluon plasma. In this new edition, Professor Wong: Includes a chapter on nuclear astrophysics Relates observed nuclear properties to the atomic weight of the fundamental aspects of nuclear physics as an integral part of modern physics. This book discusses the physics of these extreme objects, and reviews the essential aspects of nuclear and particle physics 440 BC Democritus speculates about fundamental indivisible particles---calls them "atoms" 1766 Henry Cavendish discovers and studies hydrogen 1778 Carl Scheele and Antoine Lavoisier discover that air is composed of atoms of different weights 1811 Amedeo Avogadro claims that equal volumes of gases should contain equal numbers of molecules 1832 Michael Faraday states his quantum hypothesis and blackbody radiation law 1902 Philipp Lenard observes that maximum photoelectron energies are independent of illuminating intensity but depend on frequency 1902 Theodor Svedberg suggests that fluctuations in molecular bombardment cause the Brownian motion 1905 Albert Einstein explains the photoelectric effect 1906 Charles Barkla discovers that each element has a characteristic X-ray and that the degree of penetration of these extreme objects, and reviews the essential aspects of nuclear and particle physics and astrophysics. Author Samuel nuclear and particle physics.
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