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мÓÆÂÁùºÏ²Ê¿ª½±Ö±²¥ Undergraduate Physics Society (DUPS)
Representing Undergraduate Physics Students of мÓÆÂÁùºÏ²Ê¿ª½±Ö±²¥
Undergraduate Programs
For students interested in physics at the undergraduate level, there are a number of options, including a Bachelor of Science (BSc) with a major in Physics or a BSc with Honours in Physics. We offer specializations in a number of physics sub-disciplines. Our Majors and Honours students can opt to complete one of the following physics streams where students select six courses in a given field of interest:
Applied Materials
New materials are needed to respond to any of society's technological challenges, such as clean energy and transportation. This stream gives you exposure to the industrial side of materials physics with hands on courses in materials characterization and simulation. These are complemented with a selection of more fundamental materials courses.
Recommended courses | Prerequisites |
---|---|
ENGI 1203: Mechanics I: Statics | |
ENGI 2204: Mechanics of Materials | ENGI 1203 |
MATL 3500: Materials Engineering | None |
MECH 3660: FEM in Mechanical Design | ENGI 2204 |
Plus two of the following: | |
PHYC 3900: Soft Matter | |
PHYC 4230: Solid State | |
SCIE 4705: Science Innovation, Commercialization, and Entrepreneurship | |
ECED 4350: Semiconductor Materials and Devices | |
PHYC 3303: Material Science | CHEM 1011, CHEM 1012 |
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Numerial Computing | |
Physics Majors would be expected to also complete the following courses: | |
PHYC 3640: Quantum I | |
PHYC 3210: Stat Mech | |
PHYC 3000: Experimental Physics I | |
PHYC 3010: Experimental Physics II |
Astrophysics
Astrophysics is the application of physics to the study of the evolution of stars and planets, and the origins of the universe. This stream provides you with two introductory courses to the subject and the physics background to address these fundamental questions from both theoretical and observational perspectives. Additional courses could be chosen through St. Mary’s University.
Recommended courses | Prerequisites |
---|---|
PHYC 2451: Solar system Astronomy | |
PHYC 2452: Stellar and Galactic Astrophysics | |
ERTH 2020: Journey Through The Solar System | |
PHYC 3540: Optics | |
Plus two of the following: | |
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Numerial Computing | |
PHYC 4660: Cosmology | Permission of instructor |
PHYC 4650: General Relativity | MATH 3045 |
PHYC 4180: Nuclear Physics | PHYC 3640: Quantum I |
Physics Majors should consider also completing the following courses that are useful for astrophysicists: | |
PHYC 3640: Quantum I | |
PHYC 3210: Stat Mech | |
PHYC 3200: Thermodynamics |
Biophysics
Biophysics is an interdisciplinary field that applies the tools traditionally used in physics to bring a quantitative perspective to biological systems. The stream teaches you how to apply quantitative analysis to living systems. Several of the courses can be used towards a minor in biology.
Recommended courses | Prerequisites |
---|---|
BIOL 1010: Principles of Biology Part I |
|
BIOL 1011: Principles of Biology Part II |
|
STAT 2060: Introduction to Probability and Statistics | |
PHYC 3900: Soft Matter | |
Plus at least two of the following: | |
*BIOL 2004: Diversity of Plants and Microorganisms | |
MICI 2100: Introductory Microbiology | BIOL 1010, BIOL 1011, CHEM 1011, CHEM 1012 |
*BIOL 2060: Introductory Ecology | STAT 2060 |
*BIOL 2020: Cell biology | BIOL 1010, BIOL 1011 |
ANAT 2160: Introduction to Human Histology | BIOL 2020 |
Computation Courses: | |
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Numerical Computing | |
STAT 2080: Statistical Methods for Data Analysis and Inference | STAT 2060 |
CSCI 4180: Intro to Computational Biology & Bioinformatics | CSCI 2132 - Software Development, and STAT 2060 |
Other Courses: | |
OCEA 4230: Biology of phytoplankton | Permission of instructor |
BIOE 4391: Polymeric Biomaterials | None |
*BIOL 3326: Vertebrate Design: Evolution and Function | *BIOL 2003 - Animal Diversity and *BIOL 2040 - Evolution |
* Six courses at the 2000-level or above meet the requirements for a minor in biology |
Computational Physics
Computational physicists perform experiments on computers, which have become increasingly important due to the rise in complexity of problems that physics addresses. The computational techniques learned in this stream are transferable across many disciplines such as biology, oceanography, mathematics, finance, and computer science. Courses in this stream can be used towards a Certificate in Information Technology.
Recommended courses | Prerequisites |
---|---|
CSCI 1110: Computer Science | Some programming experience |
CSCI 2110: Data Structures and Algorithms | CSCI 1110 |
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Numerical Computing | |
Plus two from the list of suggested courses: | |
CSCI 2114: Mathematical Applications in Computing | CSCI 1110 |
STAT 2080: Statistical Methods for Data Analysis and Inference | STAT 2060 |
CSCI 2132: SOFTWARE DEVELOPMENT | |
CSCI 4180: Intro to Computational Biology & Bioinformatics | STAT 2060 and CSCI 2132 |
CSCI 3151: Web Intelligence | MATH 2112, STAT 2060, CSCI 2141 |
NOTE: CSCI 3151 has following prerequisits: | |
MATH 2112: Discrete Structures I | CSCI 1110 |
STAT 2060: Introduction to Probability and Statistics | |
CSCI 2141: Introduction to Database Systems |
Environmental Physics
Climate change is one of the defining problems our time. This stream provides you with the skills and knowledge to understand our evolving atmosphere. Many of the courses in this stream can be used towards a Diploma in Meterology.
Recommended courses | Prerequisites |
---|---|
PHYC 2310: Energy and the Environment | |
PHYC 2800: Climate Change | |
*PHYC 4411: Atmospheric Dynamics I | |
*PHYC 4570: Radiative Transfer | |
PHYC 3250: Computational Methods or PHYC 4250: Topics in Comp |
|
Plus at least one of the following: | |
PHYC 2270: Intro to Applied Geophysics | |
*PHYC 4412: Atmospheric Dynamics II | |
OCEA 4220: Numerical Modelling of Atmospheres and Ocean | * Recommended that you take a computational course and PHYC 4411 before this course |
STAT4390/OCEA4210: Time Series Analysis | Instructor's consent (STAT 3340, 3360 and 3460 listed as prereq's, but not required |
ENVS 3601: Global Biogeochemical Cycles | CHEM 1011 and one of ENVS 1000.06 or ENVS 1100.03 and ENVS 1200.03, SUST 1001.06, ERTH 1080.03, or ERTH 1090.03, or OCEA 2000.06, or OCEA 2001.03 and OCEA 2002.03 |
*PHYC 4520: Intro to Atmos Science | |
*PHYC4505: Atmospheric Physics | |
*PHYC4595: Atmospheric Chemistry | |
Physics Majors would be expected to also complete the following courses: | |
PHYC 3200: Thermodynamics | |
* These course can be used towards the Diploma in Meteorology. |
Leadership in Physics
Our society needs leaders who can communicate the importance of the latest technological advances to the public and our politicians, and be part of policy making decisions. These courses help to strengthen your communication skills and to place your field of study in the broader context. The following are a subset of courses that fulfill the Certificate in Leadership and Communication. The stream can also be used to satisfy the humanities requirements for a BSc degree and can be taken in conjunction with another physics stream.
Recommended courses | Prerequisites |
---|---|
PHYC 2850: Science and Economics of Climate Change | Any first year science class |
SCIE 3111: Communicating science | Permission of instructor |
PHIL 2680: Ethics in Science | None |
PHYC 3010: Experimental Physics II | |
Choose one of the following: | |
HSTC 2400: Science in the Media | |
HSTC 2205: Totalitarianism and Science | |
HSTC 3411: Feminism and Science | |
HSTC 1801: Technology and Engineering: from Industrial Age to Cybernetic Age | |
HSTC 4000: Science Nature and the Modern Period | |
PHIL 2660: Understanding Scientific Reasoning | |
PHIL 2480: Environmental Ethics | |
Plus a Leadership Porfolio |
Materials Physics
Materials are central to any technological advance or solution. Fundamental studies into the physics of materials have lead to the constantly emerging technologies that we use every day, including the Li-ion batteries that power our laptops and electric vehicles, and the computer electronics and hard-drives that enable our social media. Clean energy is critical to our future, and materials physics promises to deliver the solutions for a sustainable future with novel low-cost solar cells and batteries. The courses in this stream can be used towards a Certificate in Materials Science.
Recommended courses | Prerequisites |
---|---|
*PHYC 3900: Soft Matter | |
*PHYC 4230: Solid State | |
PHYC 4460: Advanced Optics | |
ECED 4350: Semiconductor Materials and Devices | |
Plus 2 at least three of the following: | |
PHYC 3540: Optics | |
*ERTH 2001: Minerology | ERTH1080, CHEM1011/CHEM1012 |
*PHYC 3303: Materials Science | CHEM 1012 and PHYC 3200 (can be co-requisite) |
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Numerial Computing | |
Physics Majors would be expected to also complete the following courses: | |
PHYC 3640: Quantum I | |
PHYC 3210: Stat Mech | |
* Completion of these courses with a minimum grade of B-, together with and honour's project with a material's emphasis meets the requirement for the |
Meteorology (Diploma)
Completed as part of a four-year BSc in Physics, or following the completion of a bachelor's degree in any science, math or other quantitative-based program. See our Atmospheric Science page for more information.
Physics Without all the Math
Physics, atmospheric science and astronomy courses beyond the first year, but without math prerequisites past the 1000-level. This course can be used to obtain a minor in physics, which consists of six courses at the 2000-level or above.
Recommended Courses | Prerequisites |
---|---|
PHYC 2515: Modern Physics | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2250: Physics of Medical and Biological Tech | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2150: Tools experiment | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2310: Energy and the Environment | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2800: Climate Change | None |
PHYC 2451: Solar system Astronomy | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2452: Stellar and Galactic Astrophysics | PHYC1190+1290 or PHYC1310+1320 |
PHYC 2850: Science and Economics of Climate Change | Any first year science course |
NOTE: 6 of these course are sufficient for a minor in physics |
Theoretical Physics
Theoretical physics encompasses fundamental theories across all scales, from the quantum world to the massive galactic systems governed by Einstein's theory of General Relativity. This stream provides you with a strong mathematical and computational foundation, giving students the opportunity to pursue interests in advanced theoretical courses.
Recommended Courses | Prerequisites |
---|---|
PHYC 3250: Computational Methods | |
PHYC 4250: Topics in Comp | |
Plus at least two of the following: | |
PHYC 3900: Soft Matter | |
PHYC 4230: Solid State | |
PHYC 4660: Cosmology | Permission of instructor |
PHYC 4650: General Relativity | MATH 3045 |
Plus at least two of the following: | |
MATH 2040: Matrix Theo/Linear Algebra II | |
MATH 3045: Curves and Surfaces | MATH 2002 and MATH 2040 |
MATH 4540: Applied Analysis | MATH 3120 or MATH 3260 and MATH 3501 |
MATH 4530: Differential Geometry | MATH 3045 |
MATH 4220: Intro Partial Diff Equations | MATH 3120 |
STAT 3340: Regression Analysis | STAT 2080 |
STAT 2060: Intro Probability & Stats | |
Physics Majors would be expected to also complete the following courses: | |
PHYC 3640: Quantum I | |
PHYC 3590: Adv Class Mech | |
PHYC 3210: Stat Mech | |
MATH 3120: Differential equations | |
PHYC 3200: Thermodynamics | |
PHYC 3100: Electrodynamics | |
PHYC 4151: Quantum II | |
PHYC 4160: Math Methods | |
Note: Theoretical Physics Stream can be used towards a Minor in Math. The requirements include: | |
• MATH 1030.03: Matrix Theory and Linear Algebra I | |
• MATH 2001.03: Intermediate Calculus I | |
• MATH 2120.03: Methods for Ordinary Differential equations | |
• twelve additional credit hours of Math at or above the 2000 level |
For more information on how to apply, visit the Physics and Atmospheric Science undergraduate program site.
Graduate Programs
мÓÆÂÁùºÏ²Ê¿ª½±Ö±²¥'s Department of Physics and Atmospheric Science prides itself on providing graduate students with cutting-edge, world-class research opportunities in a collegial environment. For more information on our graduate program, refer to the graduate section.