Why Bachelor of Science?
Unravel the mysteries of the universe one experiment at a time. Reveal the hidden workings of the cosmos. Measure, observe and manipulate physical phenomena to explore the laws of nature. Discover particle accelerators, telescopes, lasers and superconductors – technological advancements shaping our future.
Our Bachelor of Science majoring in Experimental Physics is about changing our world. If you’re interested in exploring natural phenomena through hands-on discovery, this is the degree for you. You’ll learn how to overcome unique challenges and craft clever solutions to experiments that you design.
Satisfy your curiosity and be a part of a collaborative team of scientists running experiments and creating breakthroughs.
Overview
Studying physics is your guide to understanding the forces that decide our everyday lives. Your major in Experimental Physics will explore how science impacts the scientific, technological and societal aspects of society. Study mathematics and advanced physics courses, devising groundbreaking experiments to tackle real-world problems.
Learn the fundamental principles and concepts of physics and tailor your studies to areas of interest. Gain hands-on experience in laboratories, developing your problem-solving skills. Build practical and relevant skills, transferable to your future career.
Approach real-world challenges analytically and become a pioneer of discovery. Drive technological innovation, address global challenges and advance our understanding of the natural world.
Key features
Learn the fundamental principles and concepts of physics.- Develop skills in problem-solving, critical thinking and analytical reasoning.
- Focus on experimental physics in your major, conducting hands-on experiments.
- Explore areas including atomic and nuclear physics, optics and electromagnetism.
- Study interdisciplinary courses in mathematics, theoretical physics and space science.
- Choose a second major or explore electives in areas of interest.
What you'll learn
Adelaide University’s Bachelor of Science is a three-year degree, designed to give you broad foundational skills through observation, experiment and measurement. You’ll develop highly transferable skills and knowledge in a range of areas, valuable across a range of industries. Learn scientific problem-solving, critical thinking and analytical reasoning. Fascinated by different fields? Choose to study two majors in areas of interest.
Your major in Experimental Physics will explore how experiments can be used to learn how the physical world works. Uncover the secrets of nature through proving theories, creating new technologies and expanding your knowledge. Study mathematics and advanced physics, ensuring our understanding of the world is accurate.
Build a strong foundation in physics, studying calculus-based courses. Learn about mechanics, thermodynamics and waves – all underpinnings of modern physics. Develop your practical problem-solving skills using quantum mechanics – studying the behaviour of particles on the smallest scales. Learn about electromagnetism and how electric charges and magnetic fields interact causing electromagnetic waves. Design experiments using the fundamental rules of physics, exploring areas of atomic and nuclear physics, optics and electromagnetism. Discover how mathematics can explain the behaviour of our physical universe.
Put your skills into practice in hands-on laboratory classes as part of your coursework. In third year, you will have the choice to complete a professional placement or research project guided by research academics and experts in the field.
This degree is flexible in nature. Study in face-to-face and online classes as well as through hands-on practicals in laboratories. Your classes will also include tutorials, workshops, seminars and lectures.
Be an essential part of advancing our understanding of the natural world and making waves in the field of physics.
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 66 units from the following:
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Calculus 2
|
Course code
MATH1005
|
Units
6
|
|
|
Course name
Linear Algebra
|
Course code
MATHX104
|
Units
6
|
|
|
Course name
Multivariable Calculus
|
Course code
MATHX203
|
Units
6
|
|
|
Course name
Physics 1A
|
Course code
PHYS1001
|
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
Electromagnetism 2
|
Course code
PHYS2002
|
Units
6
|
|
|
Course name
Solid State Physics and Photonics 2
|
Course code
PHYS2003
|
Units
6
|
|
|
Course name
Electromagnetism, Quantum and Statistical Mechanics
|
Course code
PHYS3002
|
Units
12
|
|
|
Course name
Optics and Photonics 3
|
Course code
PHYS3004
|
Units
6
|
|
|
Course name
Computational Physics
|
Course code
PHYSX300
|
Units
6
|
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
Career outcomes
A career in experimental physics offers a variety of exciting and rewarding career paths across numerous fields.
You might become a lab technician, supporting research activities and conducting experiments. Perhaps you’ll apply the principles of physics to medicine, developing and improving medical imaging technologies. You could even work in global laboratories on large-scale projects in areas like nuclear and particle physics.
Graduates from this degree can pursue a range of roles including:
- Data scientist
- Medical physicist
- Research scientist
- Environmental physicist
- Laboratory technician
- Patent examiner/agent.
Industry trends
Emerging applications of quantum technology will present substantial career opportunities in Australia. Australia’s national science agency and innovation catalyst, CSIRO has developed a Quantum Technology Roadmap, aiming to generate over $4 billion and 16,000 jobs for Australia by 2040 (CSIRO, 2020). These investments will catapult Australia’s stance as a world-class quantum technology research centre and leader in developmental studies.
Accreditation
This program is accredited by the Australian Institute of Physics.
Graduates are eligible for membership of the AIP.
Ready to apply?
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.
