Graduates from this program have a range of career options which includes technical support personnel at international observatories and astronomy educators or outreach experts at science centres and planetaria. In addition the diverse background of skills in Physics and Astronomy acquired during the program can also be applied to a wide variety of careers outside astronomy.
The general faculty wide regulations for the Astronomy Major program are the same as described for the Physics Major program. One difference between the programs is that Astronomy Majors take the Honours Physics course PHYS 403 and 408, whereas Physics Majors do not require PHYS 403 or 408. This makes it somewhat easier to switch to an Honours program either in Physics or Astronomy. Astronomy majors who complete the Majors program and wish to pursue postgraduate studies in Astronomy or Physics may be required to complete a fifth year of undergraduate courses to satisfy the entrance requirements for MSc/Ph.D. programs. The Science I program as well as the regular first year science stream are excellent entry points for this program. A coop option [1] is also available. Students intending to continue in any physics or astronomy specialization should be competent in MATH and PHYS. It is advisable that a student entering any specialization in physics or astronomy have a minimum average of 60% in first-year PHYS and 60% in first-year MATH.
Below is a short description of the Astronomy Major's program. Please be aware that the official program requirements are to be found in the UBC calendar. For more details consult the relevant calendar [2]section. For information on first year registration please go to first year guide [3].
Year 1 - Terms 1 and 2 | Description | Credits |
---|---|---|
PHYS 107, 108, 109 (or 117,118,119 or 101,118,119, 117, or Science I)^{1, 2, 3} | Enriched Physics I, Enriched Physics II and Enriched Experimental Physics | 7 |
CHEM 121 (111)^{3, 4} | Structural Chemistry | 4 |
MATH 100, 101 (or 102, 103 or 104, 105 or 120, 121)^{3} | Differential and Integral Calculus | 6 |
Communication Requirement^{5} | 6 | |
Electives^{3, 6, 7} | 7 | |
Total Credits Year 1 | 30 |
^{1}Advanced Credit or Placement in Physics are both excellent preparation but they are NOT a substitute for these first year Physics courses, which are prerequisites for all second year Physics courses. Students with AP credits should contact the Department for advice.
^{2}Students without Physics 12 must take PHYS 100 prior to PHYS 101, PHYS 107 or PHYS 117. Students must take PHYS 117 in second year if they did not take it or PHYS 107 in first year.
^{3}If an alternate course has a different credit value one should adjust the number of electives credits to compensate. The number of electives in each year is chosen to balance the total number of credits (i.e., make the yearly total equal to 30). However, since the number of available elective credits may not be a multiple of three, students are permitted to move elective credits between years. First-year physics, biology, chemistry, and mathematics can be replaced by SCIE 001.
^{4}Students without Chemistry 12 must take CHEM 111 instead of CHEM 121.
^{5}A total of six credits of coursework is required to meet the Communication Requirement. ENGL 112 is recommended. For a full list of acceptable courses see Communication Requirement [4].
^{6}Students without Biology 11 or 12 must take 3 credits of 100-level Biology. BIOL 111 or 121 are recommended.(see Biology Requirement [5])
^{7}Electives must be taken to ensure that all Faculty of Science requirements are met: (a) At least 12 credits must be from the Faculty of Arts, excluding ENGL credits used to satisfy the Faculty of Science Communication Requirement. (b) An additional 9 credits must be from Arts or Science outside the field of major to satisfy the Breadth Requirement [6]. (c) Up to 18 credits may be taken from any faculty but students must ensure that they have at least 48 upper-level credits, including at least 30 upper-level credits from the Faculty of Science. Students without Biology 11 or 12 must take 3 credits of 100-level BIOL. Students interested in senior chemistry courses or who are planning to enter a career in teaching are reminded that they should take a second course of introductory chemistry. Some course alternatives have different credit value. The number of elective credits in each year is chosen to balance the total number of credits (i.e., make the yearly total equal to 30). Since the number of available elective credits in each year may not be a multiple of three, students are permitted to move elective credits between years.
Year 2 - Term 1 | Description | Credits |
---|---|---|
ASTR 200 | Frontiers of Astrophysics | 3 |
MATH 200^{3, 8} | Calculus III | 3 |
MATH 221 (or 223) | Matrix Algebra | 3 |
PHYS 200 | Relativity and Quanta | 4 |
PHYS 219 | Intermediate Experimental Physics I | 2 |
PHYS 210^{9} | Introduction to Computational Physics | 3 |
Year 2 - Term 2 | Description | Credits |
ASTR 205 | Stars and Stellar Populations | 3 |
MATH 215 | Elementary Diff. Eqns. I | 3 |
MATH 317^{3, 8} | Calculus IV | 3 |
PHYS 229 | Intermediate Experimental Physics II | 1 |
Electives^{7} | 2 | |
Total credits Year 2 | 30 |
^{8}Qualified students may take MATH 217 and 2 credits of electives instead of MATH 200 and MATH 317, by requesting permission to register for more than 18 credits in the first term.
^{9}Computing skills at the level of PHYS 210 are required in the specialization. With written permission of an Undergraduate Physics and Astronomy Advisor, students who already have these skills may replace PHYS 210 with 3 credits of electives.
Year 3 - Term 1^{10} | Description | Credits |
---|---|---|
ASTR 300 | Galaxies | 3 |
PHYS 301 | Electricity and Magnetism | 3 |
MATH 316 (or PHYS 312) | Elementary Differential Equations II | 3 |
Electives^{7} | 6 |
Year 3 - Term 2 | Description | Credits |
---|---|---|
PHYS 203 | Thermodynamics | 4 |
PHYS 216 | Intermediate Mechanics | 3 |
PHYS 408 | Optics | 4 |
Electives^{7} | 4 | |
Total Credits Year 3 | 30 |
^{10}Consultation with the Astronomy departmental advisor is recommended before entering third and fourth year.
Year 4 - Terms 1 and 2 | Description | Credits |
---|---|---|
ASTR 406 or ASTR 407 | High-Energy Astrophysics / Planetary Science | 3 |
ASTR 404 | Astronomical and Astrophysical Measurements | 3 |
ASTR 405 | Astronomical Lab | 3 |
PHYS 304 | Introduction to Quantum Mechanics | 3 |
PHYS 403 | Statistical Mechanics | 3 |
Electives^{7, 11} | 15 | |
Total Credits Year 4 | 30 | |
Total Credits to graduate^{13} | 120 |
^{11}When choosing electices keep in mind the following graduation requirements: You need a total of 30 credits in the faculty of Science numbered 300 or above. You need a total of 48 credits in courses numbered 300 or above in any faculty. You need 12 credits (excludng ENGL credits used to satisfy the communication requirement) from the faculty of Arts. You also need a total of 9 credits from Arts or Science outside the field of the major (i.e. other than ASTR, MATH or PHYS) to satisfy the breadth requirement.