Bachelor of Engineering (Honours) (Professional)
Majoring in Electrical and Electronic
82.0
Choose your major
Architectural
This major combines structural and environmental building engineering with architectural creativity. You'll be creating the buildings of tomorrow in both on-site class and unique industry placements.
Biomedical
Learn to improve health care and quality of life through the application of electrical, electronics and systems engineering in medicine and biology.
Civil
Build the future – literally – with a Swinburne civil major, featuring technical excellence and a host of real-world industry learning opportunities.
Electrical and Electronic
Gain technical expertise in power system design, electronics, control systems, signal processing and embedded systems.
Mechanical
Learn the core concepts of mechanics, kinematics, thermodynamics, fluid mechanics and energy as you participate in industry-based projects and practical workshops.
Product Design
The product design major combines the creativity and human-centred approach of industrial design with the academic rigour of engineering science and innovation.
Robotics and Mechatronics
Discover three traditional engineering disciplines – mechanical, electronics and software – as you bolster your CV with real industry experiences.
Software
Dive into a career in advanced software engineering with an emphasis on teamwork, problem solving and practical software engineering skills.
Overview
The Bachelor of Engineering (Honours) (Professional) is designed to equip you with skills, knowledge and industry connections in your engineering field of choice. Choose from a host of majors and undertake industry-linked projects in your chosen field every semester. Plus, gain full-time insight into engineering in a real-world setting with a 12-month paid work placement opportunity.
Swinburne Open Day 2026
Stop by our Hawthorn campus on Sunday 26 July for Open Day – the stop where everything starts. Got everything you need? Apply for midyear now and get on your way in Semester 2.
Your major
Electrical and Electronic
Gain technical expertise in power system design, electronics, control systems, signal processing and embedded systems. You’ll apply your skills and knowledge in infrastructure design, construction operation and maintenance to the real world with a host of Work Integrated Learning opportunities. Direct your energy into a Swinburne electrical and electronic and be ready for a bright career upon graduation. Graduates are eligible to apply for graduate membership of Engineers Australia.
Your industry experience
Build up your CV with real industry experience through Work Integrated Learning, guaranteed for all our bachelor degrees. This Professional Degree includes a 12-month paid work placement opportunity as well as industry-based projects every semester starting from year 1. Benefit from Swinburne’s industry partnerships, gain invaluable work experience, and earn credit towards your degree.
Skills you’ll learn
- Teamwork
- Energy system design
- Energy monitoring management systems
- Model and analyse control systems
- Electrical protection techniques
Your career opportunities
- Electrical engineer
- Electronics engineer
- Communications engineer
- Power engineer
- Design engineer
Key codes
International student visa
International students in Australia who hold student visas are required to study full-time and on campus. Courses that are taught entirely online are only available to international students studying outside Australia or those in Australia who are not on a student visa. Online courses are not available to international students in Australia who hold a student visa.
Professional accreditations
Why Swinburne?
#1 in Victoria for Graduate Employability and Salary
QILT Graduate Outcomes Survey (GOS) 2024
#1 in Australia for Automation and Control
ARWU Global Ranking of Academic Subjects 2025
#4 in Australia for Electrical and Electronic Engineering
ARWU Global Ranking of Academic Subjects 2025#1 in Victoria for Engineering
US News: Best Global Universities by Subject 2025-2026
Related courses
-
Bachelor of Engineering (Honours)
-
Bachelor of Computer Science (Professional)
-
Master of Professional Engineering
-
Bachelor of Engineering (Honours)
-
Associate Degree of Engineering
-
Bachelor of Computer Science
Qualifications
One of the following:
- Successful completion of the Victorian Certificate of Education (VCE) or its equivalent, such as an interstate or international Year 12 qualification.
- Completion or partial completion of an approved tertiary qualification (including Certificates IV (completed), Diplomas, Advanced Diplomas, Associate Degrees, Undergraduate Certificates and Degrees).
- Applicants without a formal qualification may be considered for entry if they have significant and relevant work experience and/or upon completion of the STAT test.
Guaranteed Entry ATAR
82.0
Lowest ATAR to receive an offer in 2025 [after adjustment factors]
80.3
You’ll be guaranteed a place in this course if you meet or exceed the ATAR Guaranteed Entry Score, provided you meet the course prerequisites.
If your ATAR is below the guaranteed entry score, you can still be offered a place as your ATAR may be adjusted based on subject adjustments, equity schemes or other factors.
Subject adjustments:
- A study score of 25 in Biology, Chemistry, any Information Technology, any Mathematics or Physics equals 2 aggregate points per study.
- A study score of 30 in Biology, Chemistry, any Information Technology, any Mathematics or Physics
- A study score of 35 in Mathematics Methods or Specialist Maths equals 5 aggregate points per study.
Overall maximum of 15 points. Subject adjustment points are applied to the aggregate, not the ATAR.
Students admitted to the course with prior tertiary studies that satisfy part of the academic requirements of this course may be eligible for academic credit.
Successful completion of the Victorian Certificate of Education (VCE) or its equivalent, such as an interstate qualification or International Baccalaureate.
Non-Year 12 qualifications, Foundation Year and qualifications undertaken overseas will not be accepted.
This will be assessed at the time of your application. To check your eligibility for this course, visit our entry requirements for international students page.
Course prerequisites
- VCE Units 3 and 4: a minimum study score of 23 in any English (except EAL) or 27 in English as Alternate Language (EAL) or equivalent and
- VCE Units 3 and 4: a minimum study score of 20 in one of Maths: General Mathematics or Mathematical Methods or Specialist Mathematics or equivalent
Meeting the minimum entry requirements for the course does not guarantee offer of a place. See Admissions at Swinburne, for general information about admission process.
Applicants who do not meet the mathematics prerequisites for this course will be required to successfully complete Swinburne’s MathsLink Methods bridging program.
- VCE Units 3 and 4: a minimum study score of 23 in any English (except EAL) or 27 in English as Alternate Language (EAL) or equivalent and
- VCE Units 3 and 4: a minimum study score of 20 in one of Maths: General Mathematics or Mathematical Methods or Specialist Mathematics or equivalent
Meeting the minimum entry requirements for the course does not guarantee offer of a place. See Admissions at Swinburne, for general information about admission process.
Admission requirements
Meeting the minimum entry requirements for the course does not guarantee an offer of a place. Check admission requirements for general information about the admission process.
English language requirements
Satisfactory completion of one of the following:
- IELTS overall band of 6.5 (Academic Module) with no individual band below 6.0
- Swinburne’s English for Academic Purposes (EAP 5 Advanced level) with overall 70%, all skills 65% or above
- or equivalent measures available at English language requirements.
Need to undertake an English assessment for entry?
A prerequisite for many courses, the Pearson Test of English (PTE Academic) can now be done at our Hawthorn campus.
Admission requirements
Meeting the minimum entry requirements for the course does not guarantee an offer of a place. Check admission requirements for general information about the admission process.
Informed Choices
Informed Choices is how Swinburne supports you through course selection, navigating university experiences and accessing the right support services at the right times, along with ensuring you can successfully complete your course, and are equipped with the information you need to make the right career decision for you.
Informed Choices covers five areas of course requirements and capability:
Sensory
Mobility and movement
Legal, duty of care and professional
Learning and knowledge creation; and
Interpersonal.
Required components
Required components are essential functions and attributes that are encountered in different learning and assessment contexts throughout the course.
The examples below show how these components appear in practice, which can guide your approach to learning and participation throughout the course.
Sight
Students in the Bachelor of Engineering (Honours) (Professional) will use and interpret visual information, including colour and facial cues, to maintain safety and make accurate assessments.
Some activities are core to safety and professional practice. Therefore, there may be limited flexibility for adjustments in activities such as:
Recording data on graphs, interpreting diagrams, equations, schematics, or digital interfaces, particularly where colour differentiation is required
Participating in experiments undertaken in laboratories or workshops
Some industry-standard tools and software may have limited compatibility with assistive technology or alternative formats.
Sound
Students in the Bachelor of Engineering (Honours) (Professional) will use hearing to respond to vocal cues and differentiate sounds and tone, to maintain safety and make accurate assessments.
Some activities are core to safety and professional practice. Therefore, there may be limited flexibility for adjustments in activities such as:
Hearing and responding to alarms in laboratories or workshops
Adaptable components
The following sensory components are required in this course. Reasonable adjustments can likely be supported.
| Component | Definition |
|---|---|
| Touch | Feel tactile differences and changes in objects, assess physical conditions, and respond to discomfort or danger, to maintain safety and make accurate assessments. |
| Smell | Distinguish the differences and changes in smell for identifying odours, detecting hazards (like smoke or gas), and enhancing taste, to maintain safety and make accurate assessments |
Required components
Required components are essential functions and attributes that are encountered in different learning and assessment contexts throughout the course.
The examples below show how these components appear in practice, which can guide your approach to learning and participation throughout the course.
Endurance
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use endurance to sustain physical effort and concentration over extended periods without experiencing excessive fatigue.
Some activities are core to safety and professional practice. Therefore, there may be limited flexibility for adjustments in activities such as:
Participating in laboratory or workshop classes for an extended duration, coordinating movements such as lifting, walking, or standing
For safety, laboratories have strict attendee ratio allocations, which may limit extended access.
Stamina
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use stamina to perform short-term, high intensity physical tasks while maintaining control and energy.
Some activities are core to safety and professional practice. Therefore, there may be limited flexibility for adjustments in activities such as:
Participating in laboratory or workshop classes for an extended duration, requiring mental concentration and focus
For safety, laboratories have strict attendee ratio allocations, which may limit extended access.
Adaptable components
The following mobility and movement components are required in this course. Reasonable adjustments can likely be supported.
| Component | Definition |
|---|---|
| Strength | Lift, move, or hold objects safely using physical effort. |
| Dexterity | Use fine and coordinated movements of the hands and limbs to complete tasks that require precision and control. |
| Steadiness | Maintain balance, control, and stable movement while standing, walking, or performing physical tasks. |
Required components
Required components are essential functions and attributes that are encountered in different learning and assessment contexts throughout the course.
The examples below show how these components appear in practice, which can guide your approach to learning and participation throughout the course.
Activities in this course where required components are applicable will be observed and assessed during compulsory professional placement units to meet standards overseen by Engineers Australia for professional registration to practice as an engineer
Codes of Conduct
Students in the Bachelor of Engineering (Honours) (Professional) will follow professional rules, standards, and ethical guidelines provided by professional association(s).
Some activities are core to research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Demonstrating professional conduct, integrity, and legal obligations
Duty of Care
Students in the Bachelor of Engineering (Honours) (Professional) will act in ways that support personal safety and the safety of others.
Some activities are core to research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Demonstrating effective reasoning to decisions on behalf of organisation’s clients
Cultural sensitivity (including equity awareness)
Students in the Bachelor of Engineering (Honours) (Professional) will respect diverse cultures, identities, and perspectives by acting in inclusive, fair, and nonjudgemental ways.
Some activities are core to research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Demonstrating professional and ethical behaviours that are informed by cultural awareness and competence
Engage Effectively
Students in the Bachelor of Engineering (Honours) (Professional) will interact with others honestly, respectfully, and responsibly to build trust and professional relationships.
Some activities are core to research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Demonstrating engagement and interaction towards clients and colleagues
Professional Reflection
Students in the Bachelor of Engineering (Honours) (Professional) will develop skills to review their learning and performance and identify areas for improvement. relationships.
Some activities are core to research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Demonstrating reflection on current skills, knowledge and attitudes, and plan ongoing personal and professional development
Required components
Required components are essential functions and attributes that are encountered in different learning and assessment contexts throughout the course.
The examples below show how these components appear in practice, which can guide your approach to learning and participation throughout the course.
Cognition
Students in the Bachelor of Engineering (Honours) (Professional) will develop, use and apply thinking skills such as attention, memory, language, and perception to focus, learn, and complete tasks over a continued period of time.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Processing theory and procedures safely into practice
Concentrating, retaining and interpreting simultaneously is required to ensure safety during laboratory sessions
Engaging with complex knowledge to synthesise evidence is required to ensure safety during laboratory sessions
Understand and Apply Information
Students in the Bachelor of Engineering (Honours) (Professional) will use and interpret information by following instructions, making decisions, solving problems and applying knowledge.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Applying safety standards as instructed
Participating in experiments in laboratories or workshops
For safety, laboratories have strict attendee ratio allocations, which may limit extended access.
Critical thinking and analysis
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use skills in analysing and evaluating information objectively to form well-reasoned conclusions.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Analysing, synthesising, and evaluating information to justify conclusions in project‑based and analytical tasks, will be observed and assessed during compulsory placement
Digital Literacy
Students in the Bachelor of Engineering (Honours) (Professional) will develop skills to use digital tools and technologies effectively to access, create, and apply knowledge.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Using specialised software tools to model, design, analyse, simulate, communicate, and implement solutions to complex problems
Using industry specified software, will be observed and assessed during compulsory placement
Some industry-standard tools and software may have limited compatibility with assistive technology or alternative formats.
Required components
Required components are essential functions and attributes that are encountered in different learning and assessment contexts throughout the course.
The examples below show how these components appear in practice, which can guide your approach to learning and participation throughout the course.
Verbal Communication
Students in the Bachelor of Engineering (Honours) (Professional) will use spoken language to express ideas clearly, supported by tone and body language, to support understanding and feedback.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Discussing expectations of projects and tasks with clients, colleagues, managers, and contractors, will be observed and assessed during compulsory placement
Some industry-standard tools and software may have limited compatibility with assistive technology or alternative formats
Written Communication
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use written communication skills to express information through written formats including via software, print or handwriting.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Discussing expectations of projects and tasks with clients, colleagues, managers, and contractors, will be observed and assessed during compulsory placement
Writing a thesis
Producing scholarly writing content
Representing and creating ideas diagrammatically without access to technology
Numeracy
Students in the Bachelor of Engineering (Honours) (Professional) will use numbers and data to make decisions in everyday and professional situations.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Providing cost estimates in real time meetings with clients or contractors
Collaboration & teamwork
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use skills in working with others to build trust, contribute to shared goals, and maintain positive team dynamics.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Contributing to a team, based on pre-allocation of members based on skill set, to deliver projects for clients, stakeholders, colleagues, consultants and industry partners, bounded by the project timeframe
Adaptability
Students in the Bachelor of Engineering (Honours) (Professional) will develop and use skills in responding to change through adjusting plans and managing different tasks as situations change.
Some activities are core to safety, professional practice and research integrity and the production of valid scholarly work. Therefore, there may be limited flexibility for adjustments in activities such as:
Meeting or negotiating on projects and tasks deadlines, will be observed and assessed during compulsory placement
Adaptable components
The following interpersonal components are required in this course. Reasonable adjustments can likely be supported.
| Component | Definition |
|---|---|
| Social cues | Notice and respond to unspoken communication such as body language, facial expression, gestures and pace of conversations. |
| Conflict resolution | Address disagreements calmly and respectfully to reach beneficial outcomes. |
| Emotional regulation | Take part in interactions with others in a way that supports respectful and productive communication. |
Credit transfer
Credit is granted in recognition of previous study and/or experience and allows students to gain advanced standing towards their course. Applicants are assessed on a case-by-case basis.
Recognition of prior learning
Recognition of Prior Learning (RPL) allows students to gain credit (advanced standing) towards their course in recognition of skills and knowledge gained through work experience, life experience and/or formal training. Applicants are assessed on a case-by-case basis.
Apply for a pathway course
Pathways allow students to progress from one qualification to another where the first course is recognised as an entry requirement and/or provides credit (advanced standing) to the second.
How credit points work
Successful completion of the Bachelor of Engineering (Honours) (Professional) requires students to complete units of study to the value of 475 credit points. All units of study are valued at 12.5 credit points unless otherwise stated.
What your course could look like
This is the indicative sequence for Semester 1, 2026 only. You are advised to use the study plan template available via your student portal in conjunction with your course planner to plan your studies. Sequence may also vary depending on advanced standing and exemptions. The unit offering information is correct at the time of publication, however changes may occur.
| Units of study | Unit code |
|---|---|
| Semester 1 | |
|
Humanitarian Engineering Design Project
Core unit, 12.5 credit points |
ENG10001 |
|
Engineering Materials
Core unit, 12.5 credit points |
ENG10002 |
|
Preliminary Mathematics
Core unit, 12.5 credit points |
MTH00007 |
|
Energy and Motion
Core unit, 12.5 credit points |
PHY10001 |
| Semester 2 | |
|
Introduction to Programming
Core unit, 12.5 credit points |
COS10009 |
|
Engineering Mechanics
Core unit, 12.5 credit points |
ENG10003 |
|
Engineering Technology with Indigenous Context
Core unit, 12.5 credit points |
ENG10006 |
|
Linear Algebra and Applications
Core unit, 12.5 credit points |
MTH10013 |
| Units of study | Unit code |
|---|---|
| Semester 1 | |
|
Calculus and Applications
Core unit, 12.5 credit points |
MTH10012 |
|
Circuits and Electronics 1
Major unit, 12.5 credit points |
EEE20006 |
|
Engineering Technology Inquiry Project
Major unit, 12.5 credit points |
ENG20009 |
|
Elective
Elective unit |
|
| Semester 2 | |
|
Electrical Machines
Major unit, 12.5 credit points |
EEE20005 |
|
Engineering Technology Design Project
Major unit, 12.5 credit points |
ENG20010 |
|
Internet and Cybersecurity for Engineering Applications
Major unit, 12.5 credit points |
TNE20003 |
|
Mathematical Methods and Statistics for Engineering
Major unit, 12.5 credit points |
MTH20017 |
Want to see the full range of electives?
Learn about all the electives you can take in the course handbook.
| Units of study | Unit code |
|---|---|
| Professional placement - 12 months | |
|
Work Experience in Industry A
Practical unit, 25.0 credit points |
WEI20001 |
|
Integrated Professional Placement A - Engineering
Academic unit, 25.0 credit points |
ENG20003 |
|
Work Experience in Industry B
Practical unit, 25.0 credit points |
WEI20002 |
|
Integrated Professional Placement B - Engineering
Academic unit, 25.0 credit points |
ENG20004 |
| Units of study | Unit code |
|---|---|
| Semester 1 | |
|
Professional Experience in Engineering
Core unit |
EAT20008 |
|
Artificial Intelligence Engineering
Major unit, 12.5 credit points |
COS40007 |
|
Electrical Power Systems
Major unit, 12.5 credit points |
EEE30002 |
|
Engineering Technology Sustainability Project
Major unit, 12.5 credit points |
ENG30002 |
|
Control and Automation
Major unit, 12.5 credit points |
RME30002 |
| Semester 2 | |
|
Power Protection
Major unit, 12.5 credit points |
EEE20013 |
|
Power Electronics
Major unit, 12.5 credit points |
EEE40005 |
|
Engineering Technology Innovation Project
Major unit, 12.5 credit points |
ENG40011 |
|
Elective
Elective unit |
|
| Units of study | Unit code |
|---|---|
| Semester 1 | |
|
Engineering Technology Project A (ENG/CS)
Core unit, 12.5 credit points, Choose if majoring in Software |
EAT40005 |
|
Final Year Capstone Project 1
Core unit, 12.5 credit points, Choose if majoring in Architectural, Civil, Mechanical or Product Design |
ENG40005 |
|
Engineering Technology Project A
Core unit, 12.5 credit points, Choose if majoring in Biomedical, Electrical or Robotics |
ENG40007 |
|
Hydrogen and Energy Storage
Major unit, 12.5 credit points |
EEE30006 |
|
Deploying Secure Engineering Applications Online
Major unit, 12.5 credit points |
TNE30024 |
|
Elective
Elective unit |
|
| Semester 2 | |
|
Engineering Technology Project B (ENG/CS)
Core unit, 12.5 credit points, Choose if majoring in Software |
EAT40006 |
|
Final Year Capstone Project 2
Core unit, 12.5 credit points, Choose if majoring in Architectural, Civil, Mechanical or Product Design |
ENG40006 |
|
Engineering Technology Project B
Core unit, 12.5 credit points, Choose if majoring in Biomedical, Electrical or Robotics |
ENG40008 |
|
Power Systems Operation and Control
Major unit, 12.5 credit points |
EEE40007 |
|
Design of Smart Power Grids
Major unit, 12.5 credit points |
EEE40016 |
|
Elective
Elective unit |
|
2026 tuition fees
Yearly fee* ($AUD)
$9,537.00
Total fee* ($AUD)
$45,300.00
2026 tuition fees
Yearly fee* ($AUD)
$47,320.00
Fees are estimates only
Published student tuition fees for 2026 unit enrolments in HE Commonwealth Supported Place (CSP) and Undergraduate Full Fee Paying (FFP) are subject to change based on individual circumstances at enrolment. Fees may vary for units studied in future years, with part-time fees being proportionally lower depending on the number of units taken per semester. Enrolled students will receive reasonable notice of any fee changes before payment is due.
Fees are estimates only
The indicative course fees shown apply to international students for the relevant year, based on a standard study load per year. Fees are assessed according to actual study load each semester, with variations to study load resulting in tuition fee adjustments. These fees generally include the Student Services and Amenities Fee (SSAF) and are subject to annual review. Enrolled students will receive reasonable notice of any fee changes before payment is due.
How do I pay my fees?
HECS-HELP is a loan and discount scheme available to you if you are eligible and enrolled in a Commonwealth supported place. A HECS-HELP loan can cover all or part of your contribution amount. You can also choose to pay your fees up front.
International students need to pay tuition fees up-front by the relevant due date. You can find the due dates on your Statement of Account.
To pay your fees:
- log in to My Finances
- check your Australian bank account details are correct
- check your Statement of Account to see how much you owe
- pay using your preferred payment method.
Eligibility for HECS-HELP
You are eligible for a HECS-HELP loan if you have been offered a Commonwealth Supported Place (CSP) for an undergraduate degree at Swinburne or a UniLink course, and you:
- are an Australian citizen and doing at least one unit of your course in Australia; or
- hold a permanent humanitarian visa and will be living in Australia for the duration of your course; or
- hold a New Zealand Special Category visa and meet the special eligibility requirements for New Zealand citizens.
Student services and amenities fee
This funding serves to improve the student experience at Swinburne. You may use many or just some of the services and amenities that the fee provides.
The fee shown in the capped amount for 2026.
This funding serves to improve the student experience at Swinburne. You may use many or just some of the services and amenities that the fee provides.
This amenities fee is included within your annual tuition fee listed above. The fee shown is the capped amount for 2026.
Please refer to the Student Services Amenities Fee page for more information.
SSAF fee* ($AUD)
$373.00
SSAF fee* ($AUD)
$373.00
Scholarships
Scholarship applications for 2026 are open. Scholarships at Swinburne are about providing opportunity, promoting equity and recognising excellence and achievement. We want you to reach your potential and achieve your life and career goals.
Our handy guide will assist you to gather documents for your application.
When you apply for a Swinburne course, we automatically consider you for an international scholarship of up to 20 per cent off your course fees – no separate application required! Just apply for your Swinburne course of choice and when we review your course application, we will also assess you for an international scholarship.
Apply through an agent
Most international students use an education agent to help them through the application process. Swinburne has agents all over the world that can help you with your application to study. Search for a Swinburne representative in your country. If your country is not listed, please contact us.
Apply directly
Ready to take on a new challenge and reach your academic goals? If you already know which course you want to study and understand the entry requirements, what are you waiting for? Apply online! Remember, you cannot apply direct if you have an active VTAC application.
Apply through VTAC
International students currently studying Year 12 in Australia must apply through VTAC. VTAC is the central office that administers the application processes for places in tertiary courses, scholarships and the Special Entry Access Scheme at universities, TAFEs and independent tertiary colleges in Victoria.
VTAC is the central office that administers the application processes for places in tertiary courses, scholarships and the Special Entry Access Scheme at universities, TAFEs and independent tertiary colleges in Victoria.