High school preparation for undergraduate programs in physics, astronomy, and astrophysics should include four years of math at least through pre-calculus and one year each of chemistry, physics, and computer programming. Students are strongly encouraged to periodically meet with a major advisor to review course selection and degree progress.
The B.A. degrees are ideal for students who want a strong background in physical science but desire more flexibility to blend their curriculum with "liberal arts" and other interests. Students with B.A. degrees often pursue careers in teaching, science communication & journalism, science outreach (at science museums, planetaria & public observatories), medical, dental, and other health fields, or business sub-fields in which a rigorous scientific background is beneficial. The B.S. degrees require more in-depth technical training, advanced laboratory experiences, and specialized elective topics. Students with B.S. degrees often pursue science and engineering careers in colleges & universities, industrial research & development labs, or government labs & agencies, or pursue advanced graduate degrees in physics, astronomy, planetary science, or engineering. The B.S. Physics, Concentration in Physics for Teaching allows for a very versatile curriculum that can be combined with Mathematics, Chemistry, or Earth & Climate Sciences to provide breadth across the physical sciences ideal for future K-12 teachers.
All degrees in physics and astronomy have the same lower-division physics and math requirements. First-year students and sophomores focus on completing calculus (MATH 226, 227, 228) and the introductory physics sequence (PHYS 220/222, 230/232, 240/242). Physics and math tracks are very hierarchical in that students must master one course before they can take the next course and many courses must be taken in a prescribed order. Which math course a student initially takes depends on what their math preparation was prior to enrolling at SF State. Students who have completed algebra and geometry and almost no or very little trigonometry benefit from taking an extended two-semester pre-calculus sequence MATH 197 (Prelude to Calculus I) and MATH 198 (Prelude to Calculus II). Students who have completed intermediate algebra and some trigonometry can usually start with the one-semester version of pre-calculus MATH 199 (Pre-calculus). Students who have previously done well (grade of B or better) in a solid pre-calculus course that included a significant amount of trigonometry can dive right into the first course in the calculus sequence, MATH 226 (Calculus I). The Department of Mathematics is responsible for the university policy on Advanced Placement (A.P.) credit for calculus. Scores of 4 or 5 on the A.P. Calculus AB exam (or the AB subpart of the BC exam) earn students 4 units of credit for MATH 226: Calculus I and can move on to MATH 227: Calculus II. Credit for MATH 227: Calculus II is much more restrictive; students must earn an overall score of 5 on the A.P. Calculus BC exam along with a 5 on the AB subpart, and they must meet with a math advisor to get final approval before they will earn 4 units of credit for MATH 227.
After students complete the three-semester calculus sequence through MATH 228, they move on to linear algebra and differential equations. Students have a choice of MATH 245 (Elementary Differential Equations and Linear Algebra), or a more in-depth, advanced two-semester sequence of MATH 325 (Linear Algebra) and MATH 376 (Ordinary Differential Equations). Note that MATH 325 will count for 3 units toward major electives. Students who intend to complete a math minor must take the two-semester sequence. The Math Department will allow either PHYS 430 or PHYS 460 to count toward the Minor in Mathematics – that means Physics majors will only need ONE more math class to complete the Minor in Mathematics! Recommended courses include: MATH 380: Complex Analysis, MATH 400: Numerical Analysis, MATH 440: Probability & Statistics I, MATH 450: Topology, MATH 451: Differential Geometry, and MATH 477: Partial Differential Equations.
Students are advised to start the physics sequence immediately after completing MATH 226. The first physics course in the sequence is PHYS 220 (General Physics with Calculus I) and the corresponding 1-unit lab PHYS 222. Most students will then take PHYS 230/232, followed by PHYS 240/242. However, PHYS 240/242 can be taken simultaneously or even before PHYS 230/232. This is especially relevant for students who may choose to take summer courses because PHYS 230/232 are offered in the summer session, but PHYS 240/242 is not (at least not at SF State, but perhaps at some community colleges). Note that PHYS 230/232 and PHYS 240/242 both require previous completion of MATH 227 with a grade of C or better (or A.P. Calculus BC with a score of 5). Students who earn a score of 4 or 5 on the A.P. Physics C: Mechanics exam are credited with 4 units for PHYS 220/222. Students who earn a score of 4 or 5 on the A.P. Physics C: Electricity & Magnetism exam are credited with 4 units for PHYS 230/232. Note that the A.P. Physics 1 & 2 (algebra/trig-based courses) do not earn any credit toward Physics/Astronomy degrees at SF State.
The B.S. Physics and the B.S. Physics concentration in Astrophysics both require CSC 309: Computer Programming, but students on the B.A. track are also strongly encouraged to take it. Students should complete this course within their first two years because upper-division physics and astronomy courses may require computer programming on some assignments. Currently, CSC 309 teaches Python programming.
The B.A. Physics with a concentration in Astronomy requires ASTR 115: Introduction to Astronomy. There is an optional 1-unit lab ASTR 116: Astronomy Laboratory. ASTR 115 gives a broad, descriptive survey of all of astronomy with very little math or physics. This course should be taken in the first two years. While ASTR 115 is not required for the B.S. Physics with a concentration in Astrophysics, B.S. students benefit from the overview of astronomy (however, the units do not count toward the B.S. degree). ASTR 300: Stars, Planets, and the Milky Way is the first astronomy course that uses significant math and physics. B.A. and B.S. students should take this course in the spring semester immediately following completion of (or concurrent enrollment in) PHYS 230 & 240 (usually in the spring of sophomore year). This is not a course that is typically offered at many community colleges, and so most transfer students will take in junior spring. ASTR 301: Observational Astronomy Laboratory is usually taken in the fall semester of junior year. Students with sufficient preparation may take it earlier with the permission of the instructor.
- While required major core courses should be taken for letter grades, a maximum of 6 units of upper-division courses taken CR/NC may be counted toward physics and astronomy degrees.
- All prerequisites for upper-division courses must be completed with a grade of C- or better. See course descriptions for prerequisite requirements.