06692nam 22006615 450 991082827830332120200630032446.01-4684-0214-510.1007/978-1-4684-0214-8(CKB)3400000000097334(SSID)ssj0001247685(PQKBManifestationID)11774321(PQKBTitleCode)TC0001247685(PQKBWorkID)11195448(PQKB)11016905(DE-He213)978-1-4684-0214-8(MiAaPQ)EBC3082816(PPN)237997738(EXLCZ)99340000000009733420121227d1994 u| 0engurnn|008mamaatxtccrStellar Interiors[electronic resource] Physical Principles, Structure, and Evolution /by Carl J. Hansen, Steven D Kawaler1st ed. 1994.New York, NY :Springer New York :Imprint: Springer,1994.1 online resource (XIV, 446 p.) Astronomy and Astrophysics Library,0941-7834Bibliographic Level Mode of Issuance: Monograph0-387-94138-X 1-4684-0216-1 Includes bibliographical references and index.1 Preliminaries -- 1.1 Hydrostatic Equilibrium -- 1.2 An Energy Principle -- 1.3 The Virial Theorem and Its Applications -- 1.4 The Constant-Density Model -- 1.5 Energy Generation and Transport -- 1.6 Stellar Dimensional Analysis -- 1.7 Evolutionary Lifetimes on the Main Sequence -- 1.8 Exercises -- 1.9 References and Suggested Readings -- 2 An Overview of Stellar Evolution -- 2.1 Pre-Main Sequence Evolution -- 2.2 Single Stars On and Near the Main Sequence -- 2.3 Evolution of Single Stars Off the Main Sequence -- 2.4 Late Stages of Evolution -- 2.5 Evolution in Close Binary Systems -- 2.6 Special Kinds of Stars -- 2.7 Concluding Remarks -- 2.8 Exercises -- 2.9 References and Suggested Readings -- 3 Equations of State -- 3.1 Distribution Functions -- 3.2 Blackbody Radiation -- 3.3 Ideal Monatomic Gas -- 3.4 The Saha Equation -- 3.5 Fermi-Dirac Equations of State -- 3.6 “Almost Perfect” Equations of State -- 3.7 Adiabatic Exponents and Other Derivatives -- 3.8 Exercises -- 3.9 References and Suggested Readings -- 4 Radiative and Conductive Heat Transfer -- 4.1 Radiative Transfer -- 4.2 The Diffusion Equation -- 4.3 A Brief Diversion into “?’s” -- 4.4 Radiative Opacity Sources -- 4.5 Heat Transfer by Conduction -- 4.6 Tabulated Opacities -- 4.7 References and Suggested Readings -- 5 Heat Transfer by Convection -- 5.1 The Mixing Length Theory -- 5.2 Variations on the MLT -- 5.3 References and Suggested Readings -- 6 Stellar Energy Sources -- 6.1 Gravitational Energy Sources -- 6.2 Thermonuclear Energy Sources -- 6.3 The Proton-Proton Chains -- 6.4 The Carbon-Nitrogen-Oxygen Cycles -- 6.5 Helium-Burning Reactions -- 6.6 Carbon, Neon, and Oxygen Burning -- 6.7 Silicon “Burning” -- 6.8 Neutrino Emission Mechanisms -- 6.9 Exercises -- 6.10 References and Suggested Readings -- 7 Stellar Modeling -- 7.1 The Equations of Stellar Structure -- 7.2 Polytropic Equations of State and Polytropes -- 7.3 The Approach to Real Models -- 7.4 References and Suggested Readings -- 8 Structure and Evolution of the Sun -- 8.1 The Sun as the Prototype Star -- 8.2 From the ZAMS to the Present -- 8.3 The Solar Neutrino “Problem” -- 8.4 The Role of Rotation in Evolution -- 8.5 References and Suggested Readings -- 9 Structure and Evolution of White Dwarfs -- 9.1 Observed Properties of White Dwarfs -- 9.2 White Dwarf Evolution -- 9.3 The Magnetic White Dwarfs -- 9.4 References and Suggested Readings -- 10 Asteroseismology -- 10.1 Adiabatic Radial Pulsations -- 10.2 Nonadiabatic Radial Motions -- 10.3 An Introduction to Nonradial Oscillations -- 10.4 Helioseismology -- 10.5 Asteroseismology of White Dwarfs -- 10.6 References and Suggested Readings -- A Glossary -- B Physical and Astronomical Constants -- C Sample Computer Codes -- C.1 The ZAMS Model Builder -- C.2 Adiabatic Pulsation Code.That trees should have been cut down to provide paper for this book was an ecological afIront. From a book review. - Anthony Blond (in the Spectator, 1983) The first modern text on our subject, Structure and Evolution of the Stars, was published over thirty years ago. In it, Martin Schwarzschild described numerical experiments that successfully reproduced most of the observed properties of the majority of stars seen in the sky. He also set the standard for a lucid description of the physics of stellar interiors. Ten years later, in 1968, John P. Cox's tw~volume monograph Principles of Stellar Structure appeared, as did the more specialized text Principles of Stellar Evolution and Nuc1eosynthesis by Donald D. Clayton-and what a difference ten years had made. The field had matured into the basic form that it remains today. The past twenty-plus years have seen this branch of astrophysics flourish and develop into a fundamental pillar of modern astrophysics that addresses an enormous variety of phenomena. In view of this it might seem foolish to offer another text of finite length and expect it to cover any more than a fraction of what should be discussed to make it a thorough and self-contained reference. Well, it doesn't. Our specific aim is to introduce only the fundamentals of stellar astrophysics. You will find little reference here to black holes, millisecond pulsars, and other "sexy" objects.Astronomy and Astrophysics Library,0941-7834Observations, AstronomicalAstronomy—ObservationsAstrophysicsGeophysicsAstronomy, Observations and Techniqueshttps://scigraph.springernature.com/ontologies/product-market-codes/P22014Astrophysics and Astroparticleshttps://scigraph.springernature.com/ontologies/product-market-codes/P22022Geophysics/Geodesyhttps://scigraph.springernature.com/ontologies/product-market-codes/G18009Observations, Astronomical.Astronomy—Observations.Astrophysics.Geophysics.Astronomy, Observations and Techniques.Astrophysics and Astroparticles.Geophysics/Geodesy.520Hansen Carl Jauthttp://id.loc.gov/vocabulary/relators/aut53762Kawaler Steven Dauthttp://id.loc.gov/vocabulary/relators/autBOOK9910828278303321Stellar Interiors336831UNINA