Stellar Observations and Theory

This is the course website for Astronomy 421, Winter 2022 edition.

Resources

• Syllabus
• Lecture Q/A Submission Form

Lectures

• Lecture 01 (Jan 03): Video, Slides
• Lecture 02 (Jan 05): Video, Slides
• Lecture 03 (Jan 10): Video, Slides
• Lecture 04 (Jan 12): Video, Slides
• Lecture 05 (Jan 19): Video, Slides
• Lecture 06 (Jan 24): Video, Slides
• Lecture 07 (Jan 26): Video, Slides
• Lecture 08 (Jan 31): Video, Slides
• Lecture 09 (Feb 02): Video, Slides
• Lecture 10 (Feb 07): Video, Slides
• Lecture 11 (Feb 09): Career Discussion Day
• Lecture 12 (Feb 14): Video, Slides
• Lecture 13 (Feb 16): Video, Slides
• Lecture 14 (Feb 23): Video, Slides
• Lecture 15 (Feb 28): Video, Slides
• Lecture 16 (Mar 02): Video, Slides
• Lecture 17 (Mar 07): Video, Slides
• Final Session 1 (Mar 09)
• Final Session 2 (Mar 14)

Assignments

• Homework 1, due Jan 10
  • Reviewing the CMD with M67
  • Files needed: Gao2018_GaiaEDR3.csv, MIST_iso_61ca3125bac7d.iso.cmd
• Homework 2, due Jan 19
  • Blackbody Spectra, and solving the Saha/Boltzmann Equations
  • Files needed: sun-atmosphere-kamp.txt, vega-atmosphere-kamp.txt
• Homework 3, due Feb 08
  • Radiative Transfer & Line Formation
  • Files needed: line_functions.py, nai_d_data.txt
• Homework 4, due Feb 22
  • Stellar Structure and the Standard Solar Model
  • Files needed: bp2000_ssm.txt
• Homework 5, due Mar 02
  • Stellar Pulsations
  • Notebook needed: RRLyr_Period-Luminosity.ipynb
  • Files needed: 12.parquet, rrl_main_cat.csv.gz
• Homework 6, due Mar 17
  • Evolution of a Low- and High-Mass Star with MESA
  • Files needed: 1MsunData.tar, 25MsunData.tar
  • Some example code
• Final Project
  • Part 1, Due Feb 16 5PM PST.
  • Part 2, Mar 9 (last day of class) & Mar 14 (beginning of Finals week)