Bachelor of Science (Honours) majoring in Computational Physics

Undergraduate | 2026

Mode

On Campus

Start date

February

Campus

Adelaide City Campus

Duration

4 year(s) full-time

Program code

HSCIE

Study as

Full-time

Indicative annual fees

$53,300

Non-tuition fees

Prerequisite

None

Assumed knowledge

None

English language requirements

IELTS Overall 6.5 IELTS Reading 6 IELTS Listening 6 IELTS Speaking 6 IELTS Writing 6 Equivalent English qualifications

CRICOS code

115753C

Entry requirements

Admission criteria

To be eligible, an applicant must have achieved at least one of the following minimum entry requirements and demonstrate they fulfil any prerequisite and essential criteria for admission. In cases where there are more eligible applicants than available places, admission will be competitive with ranks based on the entry criteria.

Secondary education (Year 12)

Completion of a secondary education qualification equivalent to the South Australian Certificate of Education (SACE).

Vocational Education and Training (VET)

Completion of an award from a registered training organisation (RTO) at Certificate IV (AQF level 4) or higher.

Higher education study

Successful completion of at least 6 months full-time study (or equivalent part-time) in a higher education award program in an undergraduate diploma (AQF level 5) or higher.

English language entry requirements

In addition, international students who speak English as an additional language must have obtained one of the following standards within the last two years prior to admission. Possession of one or more of these qualifications, in addition to the academic entry requirements, does not, in itself, guarantee a place at Adelaide University. Applications are considered on an individual basis and selection is competitive. Where previous study/work experience was conducted in English, the application must be accompanied by certified documentation from the educational institution/employer certifying that the language of instruction/employment was English.

IELTS Overall 6.5
IELTS Reading 6
IELTS Listening 6
IELTS Speaking 6
IELTS Writing 6

Please access the following link for a comprehensive list of English language tests accepted by Adelaide University and other important information in relation to meeting the University’s language requirements:

Equivalent English qualifications

International admissions by country

Country	Requirement	Score
Australia	ATAR	85
Bangladesh	Higher Secondary Certificate (HSC)	4.95
Canada	Ontario Secondary School Diploma (OSSD)	80%
China	Gaokao	75%
Denmark	Studentereksamen (stx: Upper Secondary School Diploma)	7 (Good)
France	French Baccalaureate	12.5
Global	International Baccalaureate	30
Hong Kong	Diploma of Secondary Education (HKDSE)	19
India	CBSE and CISCE	85
India	State Board Examinations	95
Indonesia	SMA III	85%
Kenya	Certificate of Secondary Education (KCSE)	A-
Malaysia	Matrikulasi	3.22
Malaysia	Sijil Tinggi Persekolahan Malaysia (STPM)	3.22
Malaysia	United Entrance Certificate (UEC)	15
Nepal	National Examinations Board (NEB)	3.41
Norway	Upper Secondary School Certificate (Vitnemal fra den Videregaende Skole) / Vitnemal For Videregaende Opplaering	4.4
Phillippines	High School Diploma (Grade 12) (Academic Track) K12	90%
Singapore	Singapore GCE Advanced Levels	10
South Korea	College Scholastic Ability Test (CSAT)	345
Sri Lanka	GCE A Levels	11
Sweden	Upper Secondary School Leaving Certificate	15.5
Taiwan	GSAT %	75%
Thailand	Matayom 6	3.80
UK / Global	GCE Advanced Levels	10
USA / Global	Advanced Placement (AP)	10
USA / Global	America College Test (ACT)	26
USA / Global	Scholastic Assessment Test (SAT)	1220
Vietnam	Bằng Tốt Nghiệp Trung Học Phổ Thông (Vietnamese Year 12)	8.5

Why Bachelor of Science (Honours)?

Are you ready to explore complex scientific questions? Do you have strong mathematical skills, an analytical mindset and a drive to solve problems others might find impossible? This Honours degree could be the next step in your scientific journey.

Computational physics integrates physics, mathematics and computer science to tackle major scientific and technological problems. Through high-level modelling and simulations, you’ll work on areas such as climate systems, astrophysics, particle and nuclear physics, renewable energy technologies, advanced materials and medical innovations.

You will refine your expertise through independent research, working alongside leading academics on projects at the forefront of the field. Graduates are well prepared for roles in research, industry and government, or for further postgraduate study, where your work could help drive scientific discovery and innovation.

Overview

The Bachelor of Science (Honours) majoring in Computational Physics at Adelaide University is designed for high-achieving students with strong skills in mathematics and a passion for advanced problem-solving.

This program provides a rigorous foundation in core physics concepts, including electromagnetism, quantum mechanics and thermal physics, while extending into complex computational and mathematical methods.

You will develop expertise in programming and data analysis using languages such as Python, MATLAB and C, and apply these skills to high-performance computing projects. Through sophisticated simulations, you might model climate systems, galaxy formation or atomic and sub-atomic interactions, working with advanced algorithms and visualisation tools to present your findings.

The Honours year focuses on independent research, giving you the opportunity to contribute to new knowledge in theoretical, computational and mathematical physics. Graduates are well prepared for roles in research, industry and government, as well as further postgraduate study.

Key features

Develop an advanced understanding of core physics principles and their applications.
Solve complex theoretical, computational and mathematical problems at a high level.
Gain proficiency in programming languages including Python, MATLAB and C for scientific research.
Apply your skills in a high-performance computing laboratory with access to cutting-edge technology.
Work alongside internationally recognised researchers on real-world projects.
Broaden your expertise with electives in areas such as space science and emerging technologies.

What you'll learn

Through the Bachelor of Science (Honours) majoring in Computational Physics, you’ll study core subjects in physics, mathematics and computer science, building the advanced analytical and technical skills needed for complex problem-solving and research.

You’ll also study specialised subjects in areas such as:

Mechanics and electromagnetism
Thermal and statistical physics
Quantum mechanics
Dynamics and relativity
Multivariable calculus and differential equations
Linear algebra and numerical methods
Computer programming and data analysis
Object-oriented programming
High-performance computing techniques.

You’ll also have the opportunity to broaden your knowledge through electives in fields such as space science, technology or finance.

In your Honours year, you’ll undertake an independent research project, applying advanced computational techniques to investigate a real-world or emerging challenge in theoretical, computational or mathematical physics. This will refine your research, problem-solving and scientific communication skills, preparing you for research or industry careers at a professional level.

Majors

The Bachelor of Science (Honours) is also available with majors in the following:

Analytical Chemistry
Experimental Physics
Geophysics
Nuclear & Radiation Physics
Space Science & Astrophysics
Theoretical Physics.

What courses you'll study

Complete 192 units comprising:

42 to 54 units for Core courses, and
84 to 144 units for Majors, 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 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 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 Differential Equations	Course code MATHX202	Units 6
Course name Linear Algebra	Course code MATHX104	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 72 units from the following:

	Course code	Units
Course name Problem Solving and Programming	Course code COMP1002	Units 6
Course name Object-Oriented Programming	Course code COMP1005	Units 6
Course name Calculus 2	Course code MATH1005	Units 6
Course name Numerical Methods	Course code MATHX204	Units 6
Course name Multivariable Calculus	Course code MATHX203	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 Classical Physics 2	Course code PHYS2004	Units 6
Course name Electromagnetism, Quantum and Statistical Mechanics	Course code PHYS3002	Units 12
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

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 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 ANACHSCIE - Analytical Chemistry then complete SCIE3900 - Science Professional Placement

If studying ANIBHSCIE - Animal Behaviour then complete ANIM3900 - Advanced Applications in Animal Behaviour

If studying BIOCHSCIE - Biochemistry then complete BIOL3007 - Molecular and Biomedical Sciences Practical 3

If studying CHEYHSCIE - Chemistry then complete SCIE3900 - Science Professional Placement

If studying ECOLHSCIE - Ecology then complete SCIE3900 - Science Professional Placement

If studying ENVGHSCIE - Environmental and Geospatial Science then complete SCIE3900 - Science Professional Placement

If studyingENVSHSCIE - Environmental Science then complete SCIE3900 - Science Professional Placement

If studying EVOLHSCIE - Evolutionary Biology then complete SCIE3900 - Science Professional Placement

If studying EVOPHSCIE - Evolutionary Biology and Palaeontology the complete EART3002 - Field Palaeontology 3

If studying EXPEHSCIE - Experimental Physics then completePHYSX301 - Experimental Physics

If studying FOODHSCIE - Food Science and Technology then complete SCIE3900 - Science Professional Placement

If studying GENEHSCIE - Genetics then complete BIOL2900 - Molecular and Biomedical Science Practical 2 or BIOL3901 - Genetics Practical 3B or BIOL3007 - Molecular and Biomedical Sciences Practical 3

If studyingGEOLHSCIE - Geology then complete EART3003 - Field Geoscience Program 3

If studyingGEOEHSCIE - Geology and Earth Resources then complete EART3003 - Field Geoscience Program 3

If studyingGEOPHSCIE - Geology and Palaeontology then complete EART3002 - Field Palaeontology 3

If studyingGEOYHSCIE - Geophysics then complete EART3004 - Geophysics 3C: Seismic Processing and Interpretation and may also complete SCIE3900 - Science Professional Placement

If studyingMARWHSCIE - Marine and Wildlife Conservation then complete SCIE3900 - Science Professional Placement

If studyingMEDBHSCIE - Medicinal and Biological Chemistry then complete SCIE3900 - Science Professional Placement

If studyingMICRHSCIE - 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 studyingNUCCHSCIE - Nuclear Chemistry then complete SCIE3900 - Science Professional Placement

If studyingNUCRHSCIE - Nuclear and Radiation Physics then complete PHYSX300 - Computational Physics or PHYSX301 - Experimental Physics

If studyingPHYGHSCIE - Physics and Geophysics then complete PHYS3004 - Optics and Photonics 3 or PHYSX300 - Computational Physics

If studyingPLABHSCIE - Plant Biology then complete SCIE3900 - Science Professional Placement

If studyingPACHHSCIE - Pure and Applied Chemistry then complete SCIE3900 - Science Professional Placement

If studyingSOILHSCIE - Soil Science then complete SCIE3900 - Science Professional Placement

If studyingSPACHSCIE - Space Science and Astrophysics then complete PHYSX301 - Experimental Physics

If studyingTHEOHSCIE - Theoretical Physics then complete PHYSX300 - Computational Physics or PHYSX301 - Experimental Physics

Complete 0 to 48 units comprising:

0 to 48 units from University-wide electives

Complete 48 units for ALL of the following:

	Course code	Units
Course name Advanced Physics Part 1	Course code PHYS4000	Units 12
Course name Advanced Physics Part 2	Course code PHYS4001	Units 12
Course name Honours Physics Project	Course code PHYS4002	Units 24

Career outcomes

Careers in physics can be highly competitive, but the advanced computational and research skills gained through this Honours degree will set you apart and open doors across many fields. You might collaborate with astrophysicists at the Australian Space Agency, modelling galaxy formation and cosmological processes. You could contribute to climate predictions with organisations such as CSIRO, NASA or the United Nations, or apply your expertise developing sophisticated algorithms and simulations.

Your knowledge could lead to opportunities in areas such as:

Space industries
Climate science and renewables
Conservation and environmental modelling
Robotics, satellite technology and virtual reality
Genomics, medicine and disease control
Advanced materials, quantum technologies and nuclear power
Defence, engineering, meteorology and manufacturing.

Other possible career roles include:

Data scientist
Software engineer
Systems analyst
Quantum algorithm developer
Climate modeller
High-performance computing specialist.
Financial market modelling.

Industry trends

Demand for professionals in science, technology, engineering and mathematics (STEM), including computational physics, is rising. The Professional, Scientific and Technical Services sector is projected to account for over half of Australia’s employment growth in the coming decade (Job and Skills Australia, 2024). Industry reports also point to growth in sectors like AI, renewables and high-performance computing, creating new research-driven opportunities.

Graduates are well placed to pursue advanced research, industry and government roles, or further postgraduate study, applying their expertise across fields such as space science, defence, renewable energy, healthcare and data-driven technologies.

Accreditation

This program is accredited by the Australian Institute of Physics. Graduates are eligible for membership of the AIP.

Ready to apply?

Check your eligibility

Before you begin, find the degree you wish to study and check you meet the academic entry requirements and English language requirements.

Entry requirements

Gather your relevant documents

Ensure you have all supporting documentation needed at the time of application to avoid delays.

How to apply

Complete and send your application

Apply through one of the University’s official agency partners, or via our online application system.

Apply now

Please note that a non-refundable application fee of AUD$150 applies for every application submitted to Adelaide University.

How to apply

Applications for international students are open now, to begin your studies in 2026.

Apply through one of the University’s official Education Agents, or via our International Application System.

Find an Education Agent

Depending on your country of citizenship, you may be required to apply through one of our Education Agents.

Find an education agent in your country

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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.

This degree is offered at the following campus(es)

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.

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Bachelor of Science (Honours) majoring in Computational Physics