Lecture 0: Exam Preparation - Study Tips
Lecture 1: Astrophysics Syllabus
Lecture 2a: Introduction to Astronomy and Astrophysics: Distances and Sizes
Lecture 2b: Introduction to Astronomy and Astrophysics: Telescopes and Detectors
Lecture 3: Electromagnetic Radiation and its Interactions with Matter (Stellar Spectrum)
Lecture 4: Spectral type of Stars  
Lecture 5: Stars and the Hertzsprung-Russell Diagram 
Lecture 6: Radiative Transfer and Stellar Spectra
Lecture 7: Equations of stellar structure
Lecture 8: Equations of stellar structure - Energy transport 
Lecture 9: The Virial Theorem
Lecture 10: The Virial Theorem (Examples)
Lecture 11: Stars and equations of state
Lecture 12: Stars and nuclear reactions
Lecture 13: Polytropic Models
Lecture 14a: Late Stages of Stellar Evolution
Lecture 14b: Stellar Evolution Numerical  
Lecture 15: Theory of Stellar Oscillations
Lecture 16: Helioseismology
Lecture 17: Asteroseismology 
Lecture 18: The Sun
Lecture 19: Stellar formation: The interstellar medium (Jeans Criterion)
Lecture 20: Stellar formation: The interstellar medium
Lecture 21: Molecular clouds, gravitational collapse and fragmentation 
Lecture 22: Molecular clouds and formation of protostars
Lecture 23: Compact stars
Lecture 24: The endpoints of stellar envolution
Lecture 25: The Milky Way
Lecture 26: Current Reserach in Stellar Astrophysics