Why Bachelor of Science?
Discover the strength of tiny particles and the energy they give off. Explore the branch of physics that deals with the properties, behaviour, and interactions of atomic nuclei and the radiation emitted by them. Learn about nuclear reactions, radioactive decay and the effects of radiation on matter.
Our Bachelor of Science majoring in Nuclear and Radiation Physics will introduce you to essential physics theories, concepts and principles and how these can be applied in the medical field.
Expand your knowledge in the field to advance our natural world and address global challenges to improve quality of life. Understand the biological effects of radiation exposure and discover how this affects the type of natural phenomena we encounter daily.
Overview
Nuclear and Radiation Physics involves both theoretical studies and experimental techniques to explore atomic nuclei and its application in science and technology. Focus on the fundamental aspects of the structure of the nucleus and the interaction of radiation and matter.
Learn about the influence of nuclear physics on the development of new technologies. Be equipped with the skills to research and discuss the application of nuclear and radiation physics. Apply this knowledge to explore the origins of nuclear stability and instability, as well as the various types of radioactive decay and nuclear reactions that may take place.
Create your own degree with the option to choose electives and a second major from a range of relevant disciplines, broadening your scope for future employment. Be guided by professionals in industry and researchers who are experts in their field, ensuring energy security and promoting human health.
Key features
Solve problems using fundamental principles and concepts of physics.- Build knowledge of the physical universe through quantum mechanics and electromagnetism.
- Broaden your knowledge of key concepts in mathematics and physics courses.
- Complete an optional third-year professional placement or project, connecting you with industry and experts in the field.
- Study a flexible degree – choose from a range of cross-disciplinary electives that align with your interests.
- Double your expertise and graduate with a double major in another field of relevance.
What you'll learn
In this flexible degree, you will develop a solid foundation in science education. Tailor the Bachelor of Science to your specific areas of interest by choosing from a range of electives or a second major in Physics or Mathematics. Build a diverse skillset with the ability to approach scientific challenges with confidence.
Choosing a major in Nuclear and Radiation Physics means you will pursue in-depth studies of atomic nuclei and the radiation they emit. Learn about the composition, properties and organisation of atomic nuclei, including their size, shape and stability. Explore how different types of radiation interact with materials, leading to physical phenomena. This field includes the study of nuclear reactions, radioactive decay, nuclear structure, nuclear energy and the interactions of radiation with matter.
Gain advanced knowledge in areas such as mathematics and physics, before honing your skills to understand the behaviour of an atom during nuclear processes. Discover the relationship between electric charges and magnetic fields, key to medical imaging technologies. Bend the rules of classical physics and explore the behaviour and properties of matter and energy at the smallest scales. Observe physical phenomena in hands-on laboratories, using tools and conventions of physics to test and communicate ideas and explanations.
Nuclear and radiation physics is a vital field with significant contributions to science, medicine and energy. Build the skills in our degree to tackle complex challenges across these industries.
Develop practical problem-solving skills by conducting supervised laboratory experiments to understand the behaviour of particles at the quantum level. You will also have the option to participate in a third-year professional placement or project. Partner with leaders in industry and academic professionals to explore the real-world application of classroom concepts and theories.
Study your way. Participate in collaborative learning experiences including tutorials, workshops, seminars and lectures, with the possibility of courses being offered online, providing flexibility in your study approach.
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 72 units for ALL of the following:
| Course name | Course code | Units | |
|---|---|---|---|
|
|
Course name
Calculus 1
|
Course code
MATH1004
|
Units
6
|
|
|
Course name
Linear Algebra
|
Course code
MATHX104
|
Units
6
|
|
|
Course name
Physics 1A
|
Course code
PHYS1001
|
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
Nuclear and Radiation Physics 2
|
Course code
PHYS2006
|
Units
6
|
|
|
Course name
Electromagnetism, Quantum and Statistical Mechanics
|
Course code
PHYS3002
|
Units
12
|
|
|
Course name
Nuclear and Radiation Physics 3
|
Course code
PHYSX302
|
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
Nuclear and radiation physicists make vital and significant contributions to science, medicine, energy and industry. Their work is crucial to advancing technology, improving healthcare and ensuring safety in environments where radiation is present.
Maybe you’ll focus on the environmental impact of radiation and work on remediation projects for contaminated sites. Perhaps you’ll assist in hospitals or medical centres to ensure the safe and effective use of radiation in medical imaging treatments.
Career outcomes include:
- Health physicist
- Radiation protection officer
- Nuclear expert
- Radiation safety expert
- Environmental scientist
- Research scientist.
Industry trends
According to the Australian Government (2023), future careers will rely heavily on ‘21st century skills’ - for example, critical thinking, creativity, cultural awareness, collaboration and problem-solving. Gain these skills and more in our degree, preparing you to become an asset in a range of industries.
The Australian Government (2024) has pledged $230 million to support medical breakthroughs through groundbreaking, life changing health and medical research projects. Graduate ready to use your knowledge for good, discovering new ways to tackle many of the health issues that impact our society.
Accreditation
This program is provisionally 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.
