Why Bachelor of Science?
Explore the mysterious and invisible elements making up the universe’s mass and energy. Use theoretical concepts to study the origin, evolution and eventual fate of the universe. Discover the branch of physics that uses mathematical models to predict how the physical world works. Think about ideas and concepts to explain natural phenomena, the nature of forces and the structure of the universe.
Learn about natural phenomena including gravity, dark matter and new physical laws in our Bachelor of Science majoring in Theoretical Physics. Predict the behaviour of physical systems in collaborative laboratories with world-class researchers in their field.
Develop the deep-thinking skills needed to explain our universe at both the macro and micro levels, preparing you for an exciting career in physics.
Overview
Physics is the study of matter, energy and the fundamental forces of nature that decide the behaviour of the universe.
In our Bachelor of Science majoring in Theoretical Physics you’ll learn how to use mathematical models to explore new and developing physical theories. Focus on understanding theories like quantum mechanics and general relativity and how they contribute to our lives.
Discover the fundamental principles of physics and understand the way atoms and molecules contribute to our evolution. Tailor your studies to further areas of interest, gaining hands-on laboratory experience in experimental physics.
Rationalise, predict and explain natural physics phenomena. Learn about the hidden realities of our universe, exploring concepts beyond what can be directly observed or tested experimentally.
Key features
Engage mathematical models to rationalise and explain present and developing physical theories. - Study fundamental physics, including Newtonian physics, electromagnetism and relativistic physics.
- Explore quantum mechanics, advanced dynamics, relativity and astrophysics.
- Build critical thinking and problem-solving skills.
- Gain practical experience through hands-on laboratory work.
- Choose a second major based on your interests and career goals.
What you'll learn
Study a flexible degree designed to offer you a versatile structure. You can pursue in-depth studies in a specific discipline or combine two majors in complementary fields.
In first year, you’ll gain broad foundational skills through observation, experiment and measurement, developing highly transferable skills. Courses will introduce you to scientific problem-solving approaches, critical thinking principles, and analytical reasoning.
Through the theoretical physics major, you’ll explore the fundamental principles and concepts of physics to solve problems with a scientific approach. Discover Newtonian physics and electromagnetism to quantum and relativistic physics. Use mathematical models to explore both present and developing theories, increasing our scientific understanding of the universe.
Learn basic concepts and techniques of linear algebra, forming a base for your understanding of physics to solve problems. Study a range of calculus-based courses, including a major focus in physics to explain mechanics, thermodynamics and waves. Build on this knowledge and cover concepts in modern physics, optics and electromagnetism. Dive into the field of quantum mechanics and build practical problem-solving skills using laboratory experiments to understand how particles move and interact. Extend your knowledge into classical physics and learn about the behaviour of everyday objects and phenomena at very small scales and very high speeds. Learn how mathematics forms the language, tools and framework necessary to describe and understand physical phenomena.
Put your knowledge to practice in your final year. Choose to undertake a placement or project and work with industry professionals in the field. Gain core skills and take advantage of opportunities to further your knowledge in physical theories.
Majors
The Bachelor of Science is also available with majors in the following:
What courses you'll study
Complete 144 units comprising:
- 42 to 54 units for Core Courses, and
- Either:
- 30 to 96 units for one Major from Majors, or
- 48 units from Discipline courses, and
- At least 6 units from Work integrated learning, and
- 0 to 48 units for Electives
Complete 42 to 54 units comprising:
- 6 to 12 units for all Program Core, and
- 12 to 18 units from Common Core, and
- 6 to 30 units from Core Selective
| Course name | Course code | Units | |
|---|---|---|---|
|
Course name
Science of People, Society and the Future Planet
|
Course code
SCIE1001
|
Units
6
|
|
|
Course name
Data Skills for Scientists
|
Course code
STAT1000
|
Units
6
|
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
An Ethically Rich Life
|
Course code
COREX001
|
Units
6
|
|
|
Course name
Fact or Fiction: Data for Everyone
|
Course code
COREX002
|
Units
6
|
|
|
Course name
Igniting Change: Ideas to Action
|
Course code
COREX003
|
Units
6
|
|
|
Course name
Proppa Ways, Future Practice
|
Course code
COREX004
|
Units
6
|
|
|
Course name
Responsible AI: Bridging Ethics, Education and Industry
|
Course code
COREX005
|
Units
6
|
|
|
Course name
Ways of Being, Ways of Seeing
|
Course code
COREX006
|
Units
6
|
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Biology 1A: Molecules, Genes and Cells
|
Course code
BIOL1003
|
Units
6
|
|
|
Course name
Biology 1B: Evolution and Diversity of Organisms
|
Course code
BIOL1004
|
Units
6
|
|
|
Course name
Foundations in Chemistry
|
Course code
CHEM1000
|
Units
6
|
|
|
Course name
Chemistry 1A
|
Course code
CHEM1002
|
Units
6
|
|
|
Course name
Chemistry 1B
|
Course code
CHEM1003
|
Units
6
|
|
|
Course name
Planet Earth
|
Course code
EART1000
|
Units
6
|
|
|
Course name
Earth, Climate and Life Systems
|
Course code
EART1012
|
Units
6
|
|
|
Course name
Foundations in Mathematics
|
Course code
MATH1000
|
Units
6
|
|
|
Course name
Calculus 1
|
Course code
MATH1004
|
Units
6
|
|
|
Course name
Calculus 2
|
Course code
MATH1005
|
Units
6
|
|
|
Course name
Foundations in Physics
|
Course code
PHYS1000
|
Units
6
|
|
|
Course name
Physics 1A
|
Course code
PHYS1001
|
Units
6
|
|
|
Course name
Physics 1B
|
Course code
PHYS1002
|
Units
6
|
|
|
Course name
Linear Algebra
|
Course code
MATHX104
|
Units
6
|
|
|
Course name
Differential Equations
|
Course code
MATHX202
|
Units
6
|
Notes
Program Core - Students in the following Majors will not enrol in STAT1000 Data Skills for Scientists:
Computational Physics, Experimental Physics, Nuclear and Radiation Physics, Physics and Geophysics, Space Science and Astrophysics, Theoretical Physics
Complete exactly 54 units from the following:
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Linear Algebra
|
Course code
MATHX104
|
Units
6
|
|
|
Course name
Calculus 2
|
Course code
MATH1005
|
Units
6
|
|
|
Course name
Physics 1B
|
Course code
PHYS1002
|
Units
6
|
|
|
Course name
Quantum Mechanics and Experimental Physics 2
|
Course code
PHYS2001
|
Units
6
|
|
|
Course name
Multivariable Calculus
|
Course code
MATHX203
|
Units
6
|
|
|
Course name
Electromagnetism 2
|
Course code
PHYS2002
|
Units
6
|
|
|
Course name
Classical Physics 2
|
Course code
PHYS2004
|
Units
6
|
|
|
Course name
Electromagnetism, Quantum and Statistical Mechanics
|
Course code
PHYS3002
|
Units
12
|
Notes
The courses PHYS1001 Physics 1A, PHYS1002 Physics 1B, MATH1004 Calculus 1, MATH1005 Calculus 2 and MATHX104 Linear Algebra all require students to have passed certain SACE Stage 2 subjects, or equivalent subjects, to be eligible to enrol. Please see the course information webpages for prerequisite and/or assumed knowledge details. Foundational pathways are available to students without this background, which may increase the duration of the program beyond 3 years. Please contact the Science Program Director to discuss specific enrolment advice based on your previous study.
Complete at least 6 units from the following:
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Professional Skills in Animal Science
|
Course code
ANIM3005
|
Units
6
|
|
|
Course name
Advanced Applications in Animal Behaviour
|
Course code
ANIM3900
|
Units
12
|
|
|
Course name
Molecular and Biomedical Science Practical 2
|
Course code
BIOL2900
|
Units
6
|
|
|
Course name
Molecular and Biomedical Sciences Practical 3
|
Course code
BIOL3007
|
Units
6
|
|
|
Course name
Microbiology and Immunology Practical 3
|
Course code
BIOL3012
|
Units
6
|
|
|
Course name
Genetics Practical 3A
|
Course code
BIOL3900
|
Units
6
|
|
|
Course name
Field Palaeontology 3
|
Course code
EART3002
|
Units
6
|
|
|
Course name
Field Geoscience Program 3
|
Course code
EART3003
|
Units
6
|
|
|
Course name
Optics and Photonics 3
|
Course code
PHYS3004
|
Units
6
|
|
|
Course name
Computational Physics
|
Course code
PHYSX300
|
Units
6
|
|
|
Course name
Experimental Physics
|
Course code
PHYSX301
|
Units
6
|
|
|
Course name
Science Professional Placement
|
Course code
SCIE3900
|
Units
6
|
|
|
Course name
Science Professional Project
|
Course code
SCIE3901
|
Units
6
|
|
|
Course name
Genetics Practical 3B
|
Course code
BIOL2016
|
Units
6
|
|
|
Course name
Geophysics 3C: Seismic Processing and Interpretation
|
Course code
EART3004
|
Units
6
|
Notes
If studying ANACBSCIE - Analytical Chemistry then complete SCIE3900 - Science Professional Placement
If studying ANIBBSCIE - Animal Behaviour then complete ANIM3900 - Advanced Applications in Animal Behaviour
If studying ANISBSCIE - Animal Science then complete ANIM3901 - Professional Skills in Animal Science (UoA)
If studying BIOCBSCIE - Biochemistry then complete BIOL3007 - Molecular and Biomedical Sciences Practical 3
If studying BIOTBSCIE - Biotechnology then complete BIOL2900 - Molecular and Biomedical Science Practical 2 and BIOL3007 - Molecular and Biomedical Sciences Practical 3
If studying CHEYBSCIE - Chemistry then complete SCIE3900 - Science Professional Placement
If studying COMPBSCIE - Computational Physics then complete PHYSX300 - Computational Physics
If studying ECOLBSCIE - Ecology then complete SCIE3900 - Science Professional Placement
If studying ENVGBSCIE - Environmental and Geospatial Science then complete SCIE3900 - Science Professional Placement
If studying ENVSBSCIE - Environmental Science then complete SCIE3900 - Science Professional Placement
If studying EVOLBSCIE - Evolutionary Biology then complete SCIE3900 - Science Professional Placement
If studying EVOPBSCIE - Evolutionary Biology and Palaeontology then complete EART3002 - Field Palaeontology 3
If studying EXPEBSCIE - Experimental Physics then complete PHYSX301 - Experimental Physics
If studying FOODBSCIE - Food Science and Technology then complete SCIE3900 - Science Professional Placement
If studying GENEBSCIE - Genetics then complete BIOL2900 - Molecular and Biomedical Science Practical 2 or BIOL3900 - Genetics Practical 3Aor BIOL3901 - Genetics Practical 3B and BIOL3007 - Molecular and Biomedical Sciences Practical 3
If studying GEOLBSCIE - Geology then complete EART3003 - Field Geoscience Program 3
If studying GEOEBSCIE - Geology and Earth Resources then complete EART3003 - Field Geoscience Program 3
If studying GEOPBSCIE - Geology and Palaeontology then complete EART3002 - Field Palaeontology 3
If studying GEOYBSCIE - Geophysics then complete EART3004 - Geophysics 3C: Seismic Processing and Interpretation and may also complete SCIE3900 - Science Professional Placement
If studying MARWBSCIE - Marine and Wildlife Conservation then complete SCIE3900 - Science Professional Placement
If studying MEDBBSCIE - Medicinal and Biological Chemistry then complete SCIE3900 - Science Professional Placement
If studying MICRBSCIE - Microbiology and Immunology then complete BIOL2900 - Molecular and Biomedical Science Practical 2 and BIOL3007 - Molecular and Biomedical Sciences Practical 3 and BIOL3012 - Microbiology and Immunology Practical 3
If studying NUCCBSCIE - Nuclear Chemistry then complete SCIE3900 - Science Professional Placement
If studyingNUCRBSCIE - Nuclear and Radiation Physics then complete PHYSX300 - Computational Physics or PHYSX301 - Experimental Physics
If studying PHYGBSCIE - Physics and Geophysics then complete PHYS3004 - Optics and Photonics 3 or PHYSX300 - Computational Physics
If studying PLABBSCIE - Plant Biology then complete SCIE3900 - Science Professional Placement
If studying PACHBSCIE - Pure and Applied Chemistry then complete SCIE3900 - Science Professional Placement
If studying SOILBSCIE - Soil Science then complete SCIE3900 - Science Professional Placement
If studying SPACBSCIE - Space Science and Astrophysics then complete PHYSX301 - Experimental Physics
If studying THEOBSCIE - Theoretical Physics then complete PHYSX300 - Computational Physics or PHYSX301 - Experimental Physics
Complete exactly 6 units from the following:
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Advanced Dynamics and Relativity
|
Course code
PHYS3005
|
Units
6
|
|
|
Course name
Solid State Physics 3
|
Course code
PHYS3006
|
Units
6
|
|
|
Course name
Advanced Quantum Mechanics
|
Course code
PHYS3007
|
Units
6
|
Career outcomes
While many theoretical physicists pursue careers in academia and research, your analytical, mathematical and problem-solving skills are highly valued in various industries – offering a wide range of career opportunities.
You might work in government or private research laboratories, exploring theoretical concepts and collaborating with experimental physicists on interdisciplinary projects. Perhaps you’ll use mathematical models to develop trading strategies and analyse financial markets for finance organisations. You might even conduct theoretical research at universities or research institutions, publishing findings in scientific journals and contributing to the field of physics.
You can pursue roles such as:
- Scientist
- Researcher
- Research scientist
- Theoretical astrophysicist.
Your expertise could set you up to work in scientific computing, telecommunications, space and astronomy programs, forensic science, defence, health and environmental industries, medical physics and data science applications.
This degree will also prepare you for further postgraduate studies or research.
Industry trends
Quantum technologies leverage the fascinating and unique principles of quantum mechanics, offering the potential to dramatically enhance the speed, accuracy, and security of existing technologies. According to CSIRO (2022), quantum technologies are projected to generate over $2 billion and 8,700 jobs in Australia by 2030. You could have the opportunity to apply your theoretical knowledge and skills to this growing industry.
Accreditation
This program is accredited by the Australian Institute of Physics.
Graduates are eligible for membership of the AIP.
Ready to apply?
Please note that a non-refundable application fee of AUD$150 applies for every application submitted to Adelaide University.
Your study experience and support
Adelaide University sets you up for success in your studies – and your social life. You’ll have access to work placement and internship opportunities, overseas study tours and exchanges, networking events with guest speakers and more. Our campuses are equipped with purpose-built facilities including lecture theatres, libraries, workshops, laboratories, and spaces that simulate real work environments. These are all supported by the latest technologies and a 24/7 online learning platform with personalised study information and resources.
You’ll have everything you need to live well and thrive during your studies, with health services on campus, gymnasiums, technology zones and modern student lounges. Get involved in campus sport or join our student clubs that will connect you to your passions – and the people who share them.
Adelaide also has a variety of accommodation options to suit your individual requirements and budget, with options ranging from dedicated student accommodation to private rentals. One of the world’s most liveable cities, Adelaide has lots of leafy parks, gardens and social hubs – and some of the highest living standards globally. No matter where you are in Adelaide, you’re only a short distance from beaches, vineyards, museums, art galleries, restaurants, bars and parklands. Visit the accommodation web page to find out more.
Student services
We’re here to support you on your student journey. Adelaide University offers a range of support services and facilities, including:
- Career advice and mentoring services
- Personal counselling
- LGBTQIA+ support
- Academic support
- Fees and finance help
- Security services
- Accommodation services
- Common rooms
- Prayer rooms.
You’ll also have unlimited access to our dedicated student support hub. Visit in-person or online, or contact our friendly team by phone. We can assist you with anything study-related including enrolment, identification cards, timetables, fees and more.
Your campus
You'll be studying at one of our renowned campuses, accessing cutting-edge facilities and contemporary study spaces.
Study hours
Your courses will require a combination of different learning formats, including lectures, tutorials, workshops, seminars and practicals. Aside from your classes, you’ll also need to allocate additional time for independent study. This may include assignments, readings, projects and contributing to online discussion forums. As a rough guide, full-time studies may require 12-26 hours of class time and 14-18 hours of independent study per week.
Assessment
During your studies at Adelaide University, you’ll complete a mixture of practical, professional and research-based learning. Your assessment types will vary depending on the degree you’re studying, but may include:
- Case studies
- Essays and assignments
- Examinations
- Group projects
- Internships and placements
- Practicals
- Presentations
- Reports and project documentations
- Research projects
- Workplace and classroom contributions.
