## Student Handbook

Learn about the major, the department, courses, research and more in the Physics & Astronomy Student Handbook

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Learn about the major, the department, courses, research and more in the Physics & Astronomy Student Handbook

If you are thinking about majoring in Astronomy, you should go to the departmental office, Merrill 214, and ask to talk to Professor Follette

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The catalog is the official word on these matters, so read it, too.)The Astronomy major is designed to introduce students to the computational techniques, statistical tools, instrumentation, and physical principles that underlie modern Astronomy. Computational and statistical techniques are introduced in the first course in the major sequence, ASTR 200 (Practical Astronomy), and further honed in ASTR 228 (Introductory Astrophysics) and ASTR 352 (Advanced Astrophysics). ASTR 228 and 352 also draw on physical principles introduced in the three course required physics sequence (PHYS 123, 124 and 225).

A joint Five College Astronomy Department offers courses beyond those offered at Amherst. All required courses are taught at Amherst, but students are also encouraged to take elective courses at the four other institutions, Hampshire, Mount Holyoke and Smith Colleges and the University of Massachusetts (//www.astro.umass.edu/about/fcad/). As a result of this five college partnership, students can enjoy the benefits of a first-rate liberal arts education while maintaining association with a research department of international stature. Students may pursue independent theoretical and observational work in association with any member of the Five College Astronomy Department, either during the academic year or the summer term. The facilities of all five institutions are available to departmental majors. Students may search for Astronomy courses through the Five College online catalog.

Once you have decided to declare the major, you will need to obtain the appropriate form from the Registrar's page, complete it, and have the current Physics and Astronomy Department chair, as well as your current advisor, sign it, before returning it to the Registrar.

Students who wish to major in Astronomy are required to complete the following coursework: (Astronomy major checklist is available on page 8 of the Physics & Astronomy Student Handbook)

- Mathematics 111: Introduction to the Calculus
- Mathematics 121: Intermediate Calculus
- Physics 123: The Newtonian Synthesis: Dynamics of Particles and Systems, Waves (or Physics 116)
- Physics 124: The Maxwellian Synthesis: Dynamics of Charges and Fields, Optics (or Physics 117)
- Physics 225: Modern Physics

- Astronomy 200: Practical Astronomy
- Astronomy 228 (FC28): Introductory Astrophysics: Stars and the Interstellar Medium
- Astronomy 352 (FC52): Advanced Astrophysics: Galaxies and Cosmology

Students who have placed out of calculus or introductory physics are excused from taking those courses. Astronomy majors may place out of up to two courses without having to replace those courses. Students placing out of more than two courses must replace all but two of those courses with additional Astronomy courses numbered 200 or higher, approved Physics courses numbered 200 or higher, or other courses approved by the Department to complete the major.

The Comprehensive Evaluation for the Astronomy major will consist of an oral presentation of a published scientific paper (selected in consultation with Amherst faculty), and will take place in the second semester of a student’s senior year.

All students majoring in Astronomy must also attend at least nine public astronomy lectures during the senior year.

Along with the 8 required courses, a major must complete 3 elective courses according to the following specifications:

- At least one elective course in Astronomy to satisfy a depth requirement in the major.
- At least two additional electives, one of which must be at the 300-level or higher, e.g., a 300-level Astronomy course, one selected from the list below, or one approved by the department.

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Astronomy is a data-driven, interdisciplinary science. Any of the following courses may be used to fulfill the elective requirements.

- Astronomy 220 (FC20): [Topical Courses, e.g., Black Holes, Astrobiology, etc.]
- Astronomy 223 (FC23): Planetary Science
- Astronomy 224 (FC24): Stellar Astronomy
- Astronomy 225 (FC25): Galaxies and Dark Matter
- Astronomy 226 (FC26): Cosmology
- Astronomy 301 (FC) : Writing about Astronomy
- Astronomy 330: (FC30): [Topical Courses, e.g. Exoplanet Atmospheres, High Energy Astrophysics]
- Astronomy 335 (FC35) : Astrophysics II: Stellar and Planetary Structure
- Astronomy 337 (FC37): Observational Techniques I
- Astronomy 339 (FC39) : Astronomy in a Global Context
- Astronomy 341 (FC41): Observational Techniques II
- Astronomy 444 (FC44): Radiative Processes
- Astronomy 445 (FC45): Astrophysical Dynamics
- Physics 226: Signals and Noise Laboratory
- Physics 227: Methods of Theoretical Physics
- Physics 230: Statistical Mechanics and Thermodynamics
- Physics 343: Dynamics
- Physics 347: Electromagnetic Theory I
- Physics 348: Quantum Mechanics I
- Physics 490: [Special Topics]
- Chemistry 351: Quantum Chemistry and Spectroscopy
- Chemistry 361: Physical Chemistry
- Geology 331: Paleoclimatology
- Geology 341: Environmental and Solid Earth Geophysics
- Geology 431: Geochemistry
- Geology 450: Seminar in Biogeochemistry
- Mathematics 230: Intermediate Statistics
- Mathematics 260: Differential Equations
- Mathematics 272: Linear Algebra with Applications
- Mathematics 284: Numerical Analysis
- Mathematics 320: Wavelet and Fourier Analysis
- Mathematics 335: Time Series Analysis and Applications
- Math/Stats 360: Probability
- Mathematics 365: Stochastic Processes
- Math/Stats 370: Theoretical Statistics
- Statistics 220: Bayesian Modeling and Inference
- Statistics 225: Nonparametric Statisitcs
- Statistics 230: Intermediate Statistics
- Statistics 240: Multivariate Data Analysis
- Statistics 495: Advanced Data Analysis
- Computer Science 201: Data Structures and Algorithms I
- Computer Science 247: Machine Learning
- Computer Science 301: Data Structures and Algorithms II

To gain approval for an alternate elective, students must file a petition for the Department to consider. To submit a petition, email the Chair of the Department with relevant information about the course to be considered, for example, a syllabus from a recent semester of the course or a link to the course description.

Students wishing to pursue graduate work in Astronomy should consider a double major in physics and should endeavor to complete as many of the following additional courses as possible: Physics 230, Physics 343, Physics 347, Physics 348, Math 211, Math 260, and Math 271 or 272. In addition, a solid foundation in Computer Science and Statistics are highly recommended.

The Comprehensive Evaluation for the Astronomy major will consist of an oral presentation of a published scientific paper (selected in consultation with Amherst faculty), and will take place in the second semester of a student’s senior year.

All students majoring in Astronomy must also attend at least nine public astronomy lectures during the senior year. Colloquium schedules are online here: