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• Title:Stellar Interiors Physical Principles, Structure, and Evolution / by Carl J. Hansen, Steven D. Kawaler, Virginia Trimble.
  
•    
• Author/Creator:Hansen, Carl J.
  
• Other Contributors/Collections:Kawaler, Steven D.
  Trimble, Virginia.
  SpringerLink (Online service)
  SpringerLINK eBooks - English/International Collection (Archive)
  
• Published/Created:New York, NY : Springer New York : Imprint: Springer, 2004.
  
• In:Springer eBooks
  

• Holdings

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  • Location:ONLINEWhere is this?
    
  • Call Number: QB4
    
  • Number of Items:
    0
  • Status:No information available 

   
• Library of Congress Subjects:Physics.
  Physical geography.
  
• Subject(s):Electronic books.
  Physics.
  Astronomy, Observations and Techniques.
  Geophysics/Geodesy.
  Astrophysics and Astroparticles.
  
• Edition:Second Edition.
  
• Description:1 online resource
  
• Series:Astronomy and Astrophysics Library,
  
• Terms governing use:Access may be restricted to institutions with a site license.
  
• Summary:This text, updated and expanded from the first edition, is designed for beginning students of stellar physics, and introduces the fundamentals of stellar structure and evolution. In emphasizing the general picture of the life cycles of stars and the physics responsible, it also allows prospective specialists a taste of many of the detailed aspects of this mature discipline. The authors develop a solid foundation in important theory that is often overlooked in typical courses yet steer clear of extraneous intensive mathematics and physics. Topics include: *The life stories of stars explained by observation and theory *Equations of state of stellar material *Basic radiative transfer and stellar spectra *Stellar energy sources and nucleosynthesis *Phenomenological approaches to convection *Numerical techniques for computation of stellar evolution Keeping pace with recent developments, the authors incorporate important elements such as asteroseismology, and the effects of rotation and magnetic fields. This edition contains an extensive set of exercises that supplement and expand on the text. About the authors: Carl Hansen is Professor Emeritus of Astrophysical and Planetary Sciences, and Fellow Adjoint of JILA, at the University of Colorado, Boulder. Steve Kawaler is Professor of Astrophysics at Iowa State University, Ames, Iowa. Virginia Trimble is Professor of Physics at the University of California, Irvine, and Visiting Professor of Astronomy at the University of Maryland, College Park.
  
• ISBN:9781441991102
  9781461264972
  
• Contents: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 The Hertzsprung-Russell Diagram
  1.9 Summary Remarks
  1.10 Exercises
  1.11 References and Suggested Readings
  2 An Overview of Stellar Evolution
  2.1 Young Stellar Objects (YSOs)
  2.2 The Zero-Age Main Sequence (ZAMS)
  2.3 Leaving the Main Sequence
  2.4 Red Giants and Supergiants
  2.5 Helium Flash or Fizzle
  2.6 Later Phases, Initial Masses M ?6?10 M?
  2.7 Advanced Phases, Initial Masses M ?6?10 M?
  2.8 Core Collapse and Nucleosynthesis
  2.9 Variable Stars: A Brief Overview
  2.10 Pulsational Variables
  2.11 Explosive Variables
  2.12 White Dwarfs, Neutron Stars, and Black Holes
  2.13 Binary Stars
  2.14 Star Formation
  2.15 Supplemental Material
  2.16 Exercises
  2.17 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 Simple Atmosphere
  4.4 Radiative Opacity Sources
  4.5 Heat Transfer by Conduction
  4.6 Tabulated Opacities
  4.7 Some Observed Spectra
  4.8 Line Profiles and the Curve of Growth
  4.9 Exercises
  4.10 References and Suggested Readings
  5 Heat Transfer by Convection
  5.1 The Mixing Length Theory
  5.2 Variations on the MLT
  5.3 Hydrodynamic Calculations
  5.4 Exercises
  5.5 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 Exercises
  7.5 References and Suggested Readings
  8 Asteroseismology
  8.1 Adiabatic Radial Pulsations
  8.2 Nonadiabatic Radial Motions
  8.3 An Introduction to Nonradial Oscillations
  8.4 Exercises
  8.5 References and Suggested Readings
  9 Structure and Evolution of the Sun
  9.1 Vital Statistics of the Sun
  9.2 From the ZAMS to the Present
  9.3 The Solar Neutrino 'Problem'
  9.4 The Role of Rotation in Evolution
  9.5 Helioseismology
  9.6 References and Suggested Readings
  10 Structure and Evolution of White Dwarfs
  10.1 Observed Properties of White Dwarfs
  10.2 White Dwarf Evolution
  10.3 The Magnetic White Dwarfs
  10.4 The Variable White Dwarfs
  10.5 Exercises
  10.6 References and Suggested Readings
  A Mini Stellar Glossary
  B Table of Symbols and Physical Constants
  C List of Journal Abbreviations.