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Bachelor of Advanced Science (Honours)/Engineering (Honours)

Science
Join one of Australia's top science faculties
Science and engineering are crucial knowledge areas for building a better world. Combine the two in this globally recognised double degree and take on the jobs of tomorrow. Advanced Science and Engineering allows you to choose between more than 40 different study areas and excel through internships and research opportunities.
Commencing Terms
Term 1 & 3
Duration
6 Year(s)
Delivery Mode
Face-to-face (includes blended)
Campus
Kensington
Codes
UAC code 429360
Program code 3762
CRICOS code 088866M
Entry Requirements
ATAR/2023 lowest selection rank
93
View all admission criteria
Fees
2024 Indicative first year full fee
$8,000*
2024 Indicative full fee to complete degree
$54,000*
Photograph of science students in a garden centre

Overview

Science and engineering are two of the most crucial knowledge areas for building a better world. Combine the two in this globally-recognised double degree and unlock the skills to take on the jobs of tomorrow. 

In the Advanced Science (Honours) degree, you’ll learn how to apply your expertise to real-world challenges across a wide range of industries. With 24 majors on offer, including biology and biodiversity, chemistry, genetics and advanced physics, you’ll build your degree around your passions. Immersive research experiences and an embedded honours year will prepare you to enter the workforce as a leader in your field. 

In the Engineering (Honours) degree, you'll study at the #1 faculty for engineering and technology in Australia, with cutting-edge technology and hands-on learning experiences at your fingertips. You'll apply yourself to engineering design, problem solving, research projects, professional engineering practice and technical management across 19 engineering disciplines. You’ll choose from a wide range of specialisations, from traditional disciplines such as civil and electrical engineering, to those tailored to modern challenges, like renewable energy engineering.

Key features

  • Build a degree around your passions and aspirations

University is a time to discover your interests and explore the wide range of opportunities waiting for you after graduation. This double degree allows you to carve out your own unique skill set across science and engineering. 

As part of Advanced Science (Honours), you’ll choose from 24 majors to tailor your degree to your interests. Our flexible degree structure enables you to explore different disciplines in your first year to find the field that’s right for you. In Engineering (Honours), 19 specialisations are on offer, including Civil, Mechanical and Electrical engineering, and emerging areas like Quantum Engineering or Renewable Energy Engineering.

Whether your mind is already made up or you’re still developing your focus areas, we’ll help you build the degree that’s right for you.

  • Double your employability and multiply your opportunities

Combine your interests and gain a competitive advantage in the graduate job market with this globally-recognised double degree. By approaching your studies with the added perspective of a second discipline, you’ll develop a richer understanding of your subject matter and graduate with a specialised skill set that will set you apart. 

Despite the name, a double degree doesn’t mean double the time or workload. By combining the Bachelor of Advanced Science (Honours) and Bachelor of Engineering (Honours) into a double degree, you’ll study focused courses in each program, allowing you to complete the two degrees faster^.

  • Explore your career possibilities through research and work integrated learning

Take advantage of our Work Integrated Learning (WIL) and Research Integrated Learning (RIL) opportunities to explore potential career paths. These experiences give you the opportunity to apply your skills in a professional context and learn alongside world-leading academics.

Research courses are built into the Bachelor of Advanced Science (Honours) program to ensure you develop essential research skills. You’ll engage with authentic scientific research from year one and complete two undergraduate research skills courses as a core component of your degree.

On the Engineering side, you’ll undertake 60 days of Industrial Training in order to qualify for accreditation by Engineers Australia (EA). You’ll explore different careers, apply classroom theory to real-life situations and ensure you’re work-ready before graduation.

Why study this degree at UNSW?

  • As one of the world’s top 20 universities*, we’re guiding the future leaders of science and engineering in Australia and overseas.

    UNSW Science has eight study areas ranked in the top 50 globally**, including psychology (#25), environmental sciences (#31) and earth and marine sciences (#36). We’re ranked 1st in Australia for research output in chemistry and physical sciences, and 2nd in Australia for research output in earth and environmental sciences.^

    UNSW Engineering is ranked #1 in Australia* and 49th globally. The faculty leads the world in renewable energy, artificial intelligence, telecommunications and biomedical engineering. Thanks to our career-ready approach, UNSW Engineering graduates are in high demand, earning some of the highest salaries in Australia^^.

    *QS World University Rankings 2024

    **QS World University Rankings by Subject

    ^Nature Index Institution Outputs, 1 Dec 2019 – 30 Nov 2020

    ^^QILT Graduate Outcomes Survey 2022

  • At UNSW, we balance theoretical and hands-on learning to prepare students to hit the ground running after graduation. For that reason, UNSW was named the ‘AFR Most Employable University’ at the 2023 Top100 Future Leaders Awards. 

    We've built hands-on learning and research experiences into both degrees to ensure you have the tools to thrive in your future career. You can join the STEM Career Launchpad – an extra-curricular program that helps you prepare for your career, explore different STEM careers and expand your professional network. 

    You might also join UNSW’s renowned ChallENG Program to further develop your technical and design skills. You’ll connect with UNSW Engineering students, academics and industry professionals to collaborate on real-world, project-based learning initiatives. 

    No matter which specialisation or pathway you follow, you’ll have access to dozens of professional development opportunities and be able to leverage our 400+ industry connections and research partners to start building your own professional network.

  • At UNSW, you’ll join a cohort of passionate students, academics and professionals, all working together to shape a better future. From peer mentoring and student support services to the 300+ clubs and societies across UNSW, you’ll connect with open-minded students whose perspectives will expand your worldview.

    You’ll be able to build up your professional identity through SciConnect – an innovative online system that is integrated into your Advanced Science degree to help you settle into university, track your professional development and showcase your skills to future employers. With a range of science student societies, programs such as Women in STEM and international exchange opportunities, you’ll gain invaluable experiences at UNSW that extend far beyond the classroom.

Program Code
3762
CRICOS Code
088866M
Campus
Kensington
UAC Code
429360
Total Units of Credit (UOC)
288
Indicative Enrolments
232

Want to see more from UNSW Science?

Entry requirements

2023 Lowest Selection Rank
93
2023 A levels
17
2023 IB Diploma
36
2023 Lowest ATAR
82.55
    1. The 2023 Lowest Selection Rank (LSR) is the adjusted rank (ATAR plus adjustment factors) you would have needed to gain entry to this degree in 2023.
    2. The 2023 A levels score is based on four Advanced Level (A2) subject. Entry scores are calculated from the best three or four A2 subjects (excluding repeated subjects) using the following values: A*=6, A=5, B=4, C=3, D=2, E=1. At most one Applied A Level subject may be included in the best four subjects used to calculate the aggregate.
    3. The 2023 IB Diploma is an indication of the IB you would have needed to gain entry to this degree in 2023. It is to be used as a guide only.
    4. The 2023 Lowest ATAR is the lowest ATAR (before adjustment factors were applied) to which an offer was made. Where <5 is listed, this indicates that less than 5 ATAR-based offers were made and so the score has not been published. N/A indicates no offers were made on the basis of ATAR.
  • At UNSW, we are committed to ensuring prospective students have all the information they need in order to make informed decisions about their study options.

    To assist you in gaining a better understanding of how Admissions works at UNSW, we have provided you with a summary of ATAR offers and the student profile.

    We hope this information will help you identify the degree that is right for you.

Assumed knowledge

Mathematics Advanced or Mathematics Extension 1 (depending on chosen area of study) plus one or more of Biology, Chemistry, Earth and Environmental Science, Physics. For engineering, please refer to the relevant Engineering degree entry requirements.

Adjustment Factors


We offer a range of adjustment factor schemes that reward students for academic performance and extra-curricular achievements. These schemes also take into account a range of personal and educational disadvantages that may have affected your studies. 

HSC Plus 
This scheme rewards students who perform well in Year 12 subjects that are relevant to their preferred UNSW degree. You may be awarded up to five points. 

Elite Athletes, Performers and Leaders (EAPL) 
This program recognises achievements in the areas of sport, academia, leadership and music at an elite level. You may be eligible for up to five points.

Educational Access Scheme (EAS)
Factors such as illness, financial hardship, language difficulties or attending a particular school can mean you don't always get the best possible marks in Years 11 and 12. If one of these situations applies to you, submit an application for the Educational Access Scheme (EAS) via UAC. Eligible students can receive between 1 and 10 points towards their chosen UNSW degree.

Admission pathways


Your ATAR is not the only measure of your potential to succeed, which is why we offer a range of pathways into university. Explore your options below and get in touch with our future student advisors to discuss your path to UNSW. 

Gateway Admission Pathway
This scheme is open to students in Years 11 and 12 who attend Gateway schools. It significantly adjusts the ATAR requirements for your preferred UNSW degree and provides you with an early conditional offer to UNSW. 

Entry programs for Australian Aboriginal and Torres Strait Islander people
We offer entry programs for Indigenous Australians, including the Indigenous Preparatory Programs and the Indigenous Admission Scheme (IAS). The entry pathway program you apply for will depend on the degree you want to study. 

Progression requirements


Entry into the Honours program in Science is subject to academic performance and progression requirements. Students may exit the Advanced Science (Honours) program with a B Science award if they are unsuccessful in applying for entry into Honours.

English language requirements

 

You may be asked to provide evidence of your English proficiency to study at UNSW depending on your educational background and citizenship. English language skills are vitally important for coping with lectures, tutorials, assignments and examinations - this is why UNSW requires a minimum English language competency for enrolment.

If you’re completing an Australian Year 12 qualification (e.g. NSW HSC or equivalent), you do not need to provide anything extra to prove your proficiency. Your qualification will be used as evidence of your English proficiency.

If you do need to provide evidence of your English proficiency, this will be indicated in your application. You can prove this by providing evidence that you meet one or more of the following criteria:

If you need to improve your English skills before you start your degree, UNSW College’s Academic English Programs are for you. The programs are suitable for various English levels and help you prepare for university studies and life in Australia.

International direct entry

We do not accept secondary qualifications from this country. We may accept tertiary study results, please contact us for more information.

Please contact us for direct entry requirements.

Admission pathways


If you do not meet the requirements for direct entry into your chosen degree, you may be eligible for a pathway program with UNSW College. UNSW College provides alternative entry options using university-approved content so that you can start your UNSW journey with confidence. 

Progression requirements


Entry into the Honours program in Science is subject to academic performance and progression requirements. Students may exit the Advanced Science (Honours) program with a B Science award if they are unsuccessful in applying for entry into Honours.

English language requirements


You may be asked to provide evidence of your English proficiency to study at UNSW depending on whether you are from an English-speaking background or non-English speaking background. English language skills are vitally important for coping with lectures, tutorials, assignments and examinations - this is why UNSW requires a minimum English language competency for enrolment.

If English is not your first language, you’ll need to provide proof of your English proficiency before you can be given an offer to study at UNSW. You can do this by providing evidence that you meet one or more of the following criteria:

If you need to improve your English skills before you start your degree, UNSW College’s Academic English Programs are for you. The programs are suitable for various English levels and help you prepare for university studies and life in Australia.

Check the specific English language requirements for this program

Program structure

The Bachelor of Advanced Science (Honours)/Bachelor of Engineering (Honours) is a double degree that you can complete in six years with full-time study. You’ll complete 288 units of credit (UOC) through a combination of core courses, electives, majors and minors.

Be empowered to lead your learning with SciConnect

SciConnect is an innovative online system that's integrated across your whole science degree. It will be there to help you settle into university, track your professional development and showcase your skills to future employers. The platform focuses on connecting you with four key areas to help you get the most out of your student experience including orientation, co-curricular opportunities and communities, career development and a graduate portfolio.

SciConnect enables you to shape your university experience and supports you in showcasing your talents to potential employers with a comprehensive impression of who you are, beyond your academic transcript.

Your double degree consists of:

  • 144 units of credit from Advanced Science (Honours), including:
    - Four core courses (orientation, graduate portfolio, level one research skills and level two research experience)
    - At least one Science major
    - At least one Science Honours stream
    - Science elective courses (if required)

  • 168 units of credit from Engineering (Honours), including:
    - One of 19 majors
    - 60 days of Industrial Training
    - At least 48 UOC Disciplinary Knowledge and Enquiry-based Courses
    - 30-42 UOC Introductory Knowledge core courses
    - At least 12 UOC of elective courses

Full program structure

The Bachelor of Advanced Science (Honours)/Bachelor of Engineering (Honours) is a double degree that you can complete in six years with full-time study. You’ll complete a total of 288 units of credits (UOC), comprising 168 UOC for the Bachelor of Engineering (Hons) and 144 UOC for the Bachelor of Advanced Science (Hons). Because some course requirements overlap for both degrees, the total minimum UOC required for the dual degree is reduced from 312 to 288 UOC. 

Your double degree consists of:

Advanced Science (Honours)
  • Four core courses (orientation, graduate portfolio, level one research skills and level two research experience)
  • At least one Science major – 66-84 UOC
  • Honours Specialisation – 48 UOC
  • Science elective courses (you can use these to build a recognised minor)
    • Study the physical conditions and physical processes within the ocean such as waves, currents and tides, its interaction with the atmosphere and its role in climate. You’ll gain an understanding of the mathematical equations that describe fluid flow and how these are used in the context of the ocean. This major also explores ocean measurement and the numerical modelling of processes at various scales.

      Find out more

    • This major explores the laws of nature that govern the behaviour of the universe, from the smallest sub-atomic particles to the universe itself. It applies these laws to the solution of practical and theoretical problems and to the development of new technologies.

      Find out more

    • Study the structures of the human body. This major covers:

      • gross anatomy (form, arrangement and function of the bones, joints, muscles and internal organs)
      • histology (microscopic structure of tissues and cells)
      • embryology (development of the embryo and fetus from conception to birth)
      • neuroanatomy (organisation and functions of the brain and spinal cord)
      • biological anthropology (applying biological principles to the study of humans and non-human primates).

      Find out more

    • Develop technologies for analysing and interpreting genetic information. You’ll learn how to design and implement software for activities such as identifying cancer genes. This major covers the foundational disciplines of bioinformatics: biology, computing algorithms and mathematics and statistics.

      Find out more

    • Study the science of life. Biologists explore how living organisms function, grow, evolve and relate to one another and the environment in which they live. Your study will cover:

      • animal behaviour, morphology and physiology
      • plant morphology and physiology
      • cell biology, evolutionary studies and genetics
      • marine biology.

      Find out more

    • Explore the various biological processes used to make products and perform services. Biotechnology is used for:

      • the production of food
      • industrial chemicals
      • the development of improved crops and livestock for farming
      • environmental clean-up
      • forensics
      • the production of pharmaceuticals.

      Find out more

    • Study the world from the ground up - from the sub-atomic, atomic and molecular to the spectacular. This major is designed for students who wish to specialise in the chemical sciences.

      Find out more

    • Gain a broad introduction to the science of the Earth's climate system. You’ll gain an understanding of the fundamentals of atmospheric science, oceanography and chemistry. You’ll also have the option of focusing your studies in areas such as climate and vegetation, hydrology, biology, biogeochemistry or environmental and resource management.

      Find out more

    • Explore the science of nature and the evolution of our planet. This major covers everything from the structure of natural crystals and formation of fossils to the powerful forces that drive earthquakes and volcanoes.

      Find out more

    • Explore how various organisms including mammals, invertebrates, birds, fish, reptiles, amphibians, plants and microbes interact with one another and with their environment.

      Find out more

    • In humans and all other species, genes influence every characteristic, from appearance to behaviour to disease. This major offers a general introduction to the discipline before delving into more specialised areas including molecular genetics, human genetics, plant and microbial molecular biology and conservation biology.

      Find out more

    • Study the Earth’s landscapes, peoples, places and environments. This major explores how natural and built environments function and change over time. Discover how these environments enhance or constrain human activity.

      Find out more

    • This major provides an in-depth study of immunology, pathology and microbiology. It’ll prepare you to unlock better treatments and prevention strategies for immune-related illnesses. This major is particularly beneficial for students who want to pursue a career in the health sciences.

      Find out more

    • Explore all aspects of the marine environment, from biology to geology and the many sciences in between. This major can be studied with an emphasis on biology, earth sciences, climatology or oceanography.

      Find out more

    • Everything we use is made of materials, yet only a handful of these materials occur naturally. The rest have been microscopically engineered originally by nature, but increasingly by materials scientists and engineers. This major is the foundation for creating high-performance components and devices from metals, ceramics, polymers and composites for use in society.

      Find out more

    • Mathematics underpins all corners of science and technology and is a vibrant and fascinating field of study. Mathematics specialisations can be broadly categorised into the following:

      • Pure mathematics is the study of concepts that transcend specific applications.
      • Applied mathematics develops models for the social, economic and natural sciences to make sense of scientific phenomena and solve technical/industrial problems.

      Statistics can also be studied within a mathematics major or as a stand-alone major.

      Find out more

    • Study the smallest forms of life: bacteria, viruses, archaea, fungi and protozoa. These fascinating organisms cause disease in humans, animals and plants and spoil our food. On the positive side, they also turn the biological wheels on Earth and are responsible for the sustainability of life.

      Find out more

    • Explore molecular structures, the processes of cellular life and their roles in the function, reproduction and development of living organisms. Cell biology studies the basic unit of life, the cell, including:

      • cell anatomy
      • cell division
      • cell processes such as cell respiration and cell death.

      Molecular biology is a marriage of biochemistry, microbiology and cell biology.

      Find out more

    • Study the biological and behavioural aspects of the nervous system. The nervous system includes the:

      • central nervous system (brain and spinal cord)
      • peripheral nervous system (nerves in limbs, muscles and organs).

      This major is based on the neuroscience courses offered by the School of Psychology and UNSW’s Anatomy, Physiology and Pharmacology Departments.

      Find out more

    • Examine how and why diseases develop, what happens to our bodies when we’re ill and the effects of diseases. Pathology involves the study of diseases, such as infections and cancers, at the genetic, molecular, cellular and organ levels.

      Find out more

    • Explore the effect that drugs have on living tissues and the normal body functions of humans and animals. This major looks at the efficacy of drugs, the ability of the body to metabolise them and the toxicology/side effects of drugs.

      Find out more

    • This major is all about what makes human bodies work. Explore how the organs function, how humans grow and develop, how humans sustain bodily functions and what happens to these processes during disease and ageing.

      Find out more

    • Study human behaviour and mental processes. Psychology is a broad field that includes:

      • brain-behaviour relationships
      • the processes of perceiving, learning, memory and thinking
      • the assessment of abilities and attitudes
      • the origins of personality and emotional states
      • the nature and effects of social interactions with other people.

      This major is accredited by the Australian Psychology Accreditation Council (APAC) and when combined with honours, it satisfies the minimum requirement for provisional registration. It acts as the first step in the six-year pathway to becoming a registered psychologist.

      Find out more

    • This major provides comprehensive training in:

      • probability and stochastic processes
      • statistical inference and modelling
      • modern statistical computing methods.

      Third-year electives allow you to further develop your statistical capabilities according to your own interests.

      Find out more

You must complete 144 UOC to meet the core requirements for the Advanced Science (Honours) program. If your chosen courses are less than 144 UOC, you are required to complete additional Science elective courses from the following list to meet the 144 UOC requirement.

Engineering (Honours)
  • One Engineering major – 168 UOC, including:
    - Disciplinary Knowledge and Enquiry-based Courses – minimum 48 UOC
    - Introductory Knowledge core courses – 30-42 UOC
    - Elective courses – minimum 12 UOC

  • 60 days of Industrial Training

    • Aerospace Engineering
    • Bioinformatics Engineering
    • Chemical Engineering
    • Chemical Product Engineering
    • Computer Engineering
    • Civil Engineering
    • Environmental Engineering
    • Electrical Engineering
    • Quantum Engineering
    • Surveying
    • Mechanical and Manufacturing Engineering
    • Mechanical Engineering
    • Mining Engineering
    • Mechatronic Engineering
    • Petroleum Engineering
    • Software Engineering
    • Photovoltaics and Solar Energy
    • Renewable Energy Engineering
    • Telecommunications

Depending on the chosen combination of Engineering stream and Advanced Science major there may be more than 24 UOC of overlapping courses. When a student meets all the requirements for both degrees in less than 288 UOC, students must complete additional elective courses to bring the total to 288 UOC. Those electives must be taken from the Faculty of Engineering and/or the Faculty of Science. 

Future careers

Studying Advanced Science and Engineering as a dual degree at UNSW will unlock a world of possibilities upon graduation. You’ll gain transferable skills that can be applied across a variety of industries and functions. Your core logical, analytical and critical thinking skills will be an asset to any organisation, and through your chosen specialisation, you’ll be armed with the knowledge to solve real-world problems.

The Bachelor of Advanced Science (Honours) will prepare you to lead the next wave of scientific discovery. You’ll find opportunities to continue your research in universities and government institutes, influence public policy or support health and environmental-related non-profits. Alternatively, you might pursue a career in the private sector, driving innovation in everything from pharmaceuticals and biotechnology to data analytics and science communication.

As part of the Engineering (Honours) program, you’ll graduate with the technical knowledge, skills and attributes required to succeed as a professional engineer. Depending on your specialisation, you can combine your scientific expertise to transform the engineering profession across civil, environmental, computer science and more. You’ll also be eligible to apply for membership to Engineers Australia – the peak body for the engineering profession in Australia. 

Explore our study areas below to discover the range of potential career paths available across the fields of science and engineering.

How to apply

Applications for undergraduate study from domestic students (Australian citizens, Australian permanent residents, Australian permanent humanitarian visa holders and New Zealand citizens) are processed by the Universities Admissions Centre (UAC).

Visit the Apply section of the UAC website and you can nominate up to five degrees in order of preference, with the first being your most desired degree and university.

On-time applications for admission usually close at the end of September each year for Term 1 admission. Late applications can be submitted, but a late fee will apply. For study starting in Term 1, the majority of offers are made in December and January. Visit the UAC website for key dates for admission outside of Term 1.

Ready to apply?

For most international students, applications are submitted via our Apply Online service. We encourage you to submit your completed application as early as possible to ensure it will be processed in time for your preferred term.

Some high-demand programs with limited places, may have an earlier application deadline or may have an earlier commencement date. For more information visit our international applicant information page.

*If you are an international student studying an Australian qualification, go to the Universities Admission Centre (UAC) for application and UAC key dates. Note: If you are under 18 years of age, you need to make special arrangements. Read more.

Ready to apply?

Fees & Scholarships

2024 Indicative First Year Full Fee
$8,000*
2024 Indicative Full Fee to Complete Degree
$54,000*

Commonwealth Supported Place multiple Student Contribution Bands may apply for this double degree. See single degrees for the applicable fee bands.*The student contribution for a Commonwealth Supported Place is an indication only of the amount payable in Year 1 based on a standard full-time load of 48 credit points (1.0 EFTSL). The actual student contribution you will be liable for depends on your individual program of study and the calendar year in which you enrol. Actual fees are calculated upon enrolment. Student contribution amounts are subject to annual review by the University and may increase each year during your studies (subject to caps determined by the Australian Government), effective at the start of each calendar year. The indicative fees listed here are based on an estimated average and are for tuition only other fees and charges are not included.

2024 Indicative First Year Fee
$54,500*
2024 Indicative Fee to Complete Degree
$368,000*

*Fees are subject to annual review by the University and may increase annually, with the new fees effective from the start of each calendar year. The indicative fees listed here are based on an estimated average and are for tuition only other fees and charges are not included. The amount you pay will vary depending on the calendar year to enrol, the courses you select and whether your study load is more or less than 1 Equivalent Full Time Student Load (8 courses per year).

Indicative fees are a guide for comparison only based on current conditions and available data. You should not rely on indicative fees. More information on fees can be found at the UNSW fees website.

Indicative fees to complete the program have been calculated based on a percentage increase for every year of the program. Fee increases are assessed annually and may exceed the indicative figures listed here.

Indicative fees to complete the program include tuition plus an estimate of study-related costs of approximately $1,000 per year. To find out more about other costs, visit UNSW International.

Scholarships


At UNSW, we award over $83 million in scholarships each year. We pride ourselves on rewarding excellence and making university accessible to students from all walks of life. Whether you’re a domestic or international student, our range of scholarships, prizes and awards can support your journey.


  • Top 20
    Worldwide

    QS World University Rankings, 2024.

  • Most
    Employable Graduates

    AFR Top 100 Future leaders Award.

  • Leading
    Innovation

    #1 Australian uni attended by start-up founders.

UNSW has a strong focus on industry collaborations with opportunities for students to network.
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