Syllabus for Ay123, Stellar Structure and Evolution, Fall 2005: HKT=Hansen-Kawaler-Trimble KW=Kippenhahn-Weigert Week 1: Narrative overview of stellar structure and evolution; equation of hydrostatic equilibrium READING: HKT, Chs 1-2; Kippenhahn-Weigert Chs. 1-4; Chapters 3 and 5 in Binney and Merrifield's Galactic Astronomy may also be useful. Week 2: Introduction to basic equations of stellar structure; homology relations; radiative and conductive heat transport; opacities READING: HKT, Chapter 4; Kippenhahn-Weigert, Chapters 5,9,17,20. Week 3: Physics of stellar matter: equations of state, thermodynamic properties. READING: HKT, Ch. 3; KW, Chs. 13, 14, 15, 16 Week 4: convection, semi-convection, g-mode oscillations, very basic pulsations; diffusion READING: HKT, Ch. 5; KW, Chs. 6, 7, 8.2.2, 10.3, 22.3, 30.4 Week 5: nuclear reactions; atomic and isotopic abundances READING: HKT, Ch. 6; KW, Ch 18 Week 6: advanced stages of nucleosynthesis; construction of stellar models, numerical methods, the role of boundary conditions, stellar atmospheres READING: Clayton, Ch 7; HKT, Ch. 7; KW, Ch 10, 11, 19, 21. Week 7: structure and evolution of low-mass stars, and applications READING: HKT, Ch. 9; KW, Chs. 22--33 (i.e., 12 chapters; its a lot, but you should at least browse to be familiar with what's discussed, even if you don't absorb all of it in detail). Week 8: Structure and evolution of high-mass stars; supernovae. the kappa mechanism and the instability strip. READING: HKT Ch. 9; KW Chs. 34, 36, 38, 39 Week 9: Pop III (the first) stars READING: the papers in homework 8; KW, Chs 41-43 (we won't really cover rotating stars in class, but you should at least be familiar with what's discussed in these chapters) Week 10: interacting binaries. roche lobe, stability of mass transfer, accretion disks. READING: the papers in homework 8. also, the book, "Interacting Binary Stars," by Pringle and Wade (Cambridge U. Press, 1985) is a good reference. Updated 9/27/05