Do you want to make solar energy more efficient, create new technology in robotics or even develop materials to support the growth of human cells? Are you a high-achieving student interested in becoming an innovator and a future leader in engineering?

Our research and development (R&D) degree is right choice for you.

This elite engineering degree will give you access to an innovative structure that allows you to get involved in many project based research courses in engineering.

You can study the fundamental engineering courses while you are immersed in research groups covering mechatronics, solar energy, materials and manufacturing or computer vision.

This exceptional degree will not only allow you to excel in your career, but to also make a real difference and help to solve some of the world's largest problems.

Do you dream of living and thriving in the leading financial cities of the world - New York, London, Shanghai, Sydney or Hong Kong? Stop dreaming and get going. An ANU Bachelor of Finance will equip you to excel in the global financial marketplace.

As a student you will be challenged to solve a variety of financial problems while developing a keen analytical mind. Having these skills will prove invaluable in the fast changing world of finance.

As a Bachelor of Finance graduate from the Australian National University you will be highly sought-after, so aim high and think about which cityscape view you want from your office.

Employment Opportunities

Organisations invest in R&D in order to gain a competitive advantage over others. R&D is at the forefront of new product design and development and is a wealth and change generator. Innovative solutions to many of the problems in society today will come from those working in R&D.

After graduation you will be skilled to work in R&D roles in industry, government, and academia, or as an accredited engineer.

Careers in engineering are diverse. Engineers are in high demand in Australia and overseas, and as an ANU graduate with a systems engineering background, you will bring extra value to future employers.

The skills and abilities you gain while studying are highly sought after in engineering companies, and also across many other professions and organisations.

Because of the unique systems approach at ANU many of our graduates quickly progress to senior management roles due to their skills and knowledge in more than one engineering discipline. For this reason engineering at ANU is often considered a springboard into the wider corporate world.

Our graduates work in many organisations including ABB, Accenture, Department of Defence, CEA Technologies, Cochlear Limited, Energy Australia, Ford, GHD, IBM, Northrop Consulting Engineers, Qantas, Telstra, Thales and Toyota.

Organisations invest in R&D in order to gain a competitive advantage over others. R&D is at the forefront of new product design and development and is a wealth and change generator. Innovative solutions to many of the problems in society today will come from those working in R&D.

After graduation you will be skilled to work in R&D roles in industry, government, and academia, or as an accredited engineer.

Careers in engineering are diverse. Engineers are in high demand in Australia and overseas, and as an ANU graduate with a systems engineering background, you will bring extra value to future employers.

The skills and abilities you gain while studying are highly sought after in engineering companies, and also across many other professions and organisations.

Because of the unique systems approach at ANU many of our graduates quickly progress to senior management roles due to their skills and knowledge in more than one engineering discipline. For this reason engineering at ANU is often considered a springboard into the wider corporate world.

Our graduates work in many organisations including ABB, Accenture, Department of Defence, CEA Technologies, Cochlear Limited, Energy Australia, Ford, GHD, IBM, Northrop Consulting Engineers, Qantas, Telstra, Thales and Toyota.

Learning Outcomes

Upon successful completion, students will be able to:

1. professionally apply systematic engineering methods to design optimised and sustainable solutions to complex, multi-disciplinary real-world engineering problems.
2. formulate and evaluate solutions to engineering problems by selecting and applying theoretical principles and methods from the underpinning physical, mathematical and information sciences.
3. proficiently apply advanced technical knowledge and appropriate tools in at least one field of engineering specialisation.
4. identify and critically evaluate current developments and emerging trends within at least one field of engineering specialisation.
5. understand the contextual factors that influence professional engineering practice, and identify the potential societal, ethical, and environmental impact of engineering activities.
6. communicate effectively with colleagues, other engineering professionals and the broader community employing a range of communication media and tools.
7. engage in independent research and investigation at the leading edge of the discipline through the application and synthesis of research-based knowledge and research methods.
8. engage effectively in critical reflection and independent learning to continue practicing at the forefront of the discipline.
9. work effectively and proactively within cross-cultural, multi-disciplinary teams, demonstrating autonomy, ethical conduct, well-developed judgement, adaptability and responsibility to achieve engineering outcomes at a high standard.

• Recognise the important role of investment and financing decisions, equities, bonds and derivatives in the financial markets.

• Have an understanding of the three basic ideas underpinning finance: the time value of money; diversification; and, arbitrage and their application to corporate financial decision-making; investment decisions and portfolio management; derivatives and risk management; portfolio construction; corporate valuation; and debt markets.

• Apply theoretical foundations in practice.

• Develop the skills necessary to critically engage with and evaluate financial problems.

• Develop the skills necessary to work independently and collaboratively to collect, process, interpret and communicate the outcomes of financial problems.

Further Information

Admission Requirements

Admission to all programs is on a competitive basis. Admission to undergraduate degrees is based on meeting the ATAR requirement or an equivalent rank derived from the following qualifications:

• An Australian year 12 qualification or international equivalent; OR
• A completed Associate Diploma, Associate Degree, AQF Diploma, Diploma, AQF Advanced Diploma, Graduate Certificate or international equivalent; OR
• At least one standard full-time year (1.0 FTE) in a single program of degree level study at an Australian higher education institution or international equivalent; OR
• An approved tertiary preparation course unless subsequent study is undertaken.

Click HERE for further information about domestic admission.

More information about ATAR requirements for individual programs can be found HERE.

The National Register of higher education providers is an authoritative source of information that will help you confirm your institution of choice is registered to deliver higher education in Australia.

The Quality Indicators for Learning and Teaching (QILT) website is HERE. Based on surveys done by thousands of students across Australia you can find out about universities that interest you, doing side-by-side comparisons.

The table below is a guide to the entry level required for domestic applicants. Exact entry level will be set at time of offer.

Domestic applicant entry requirements

Queensland Band equivalents are a guide only - selection is made on an ATAR equivalent that is not available to students.

International applicant entry requirements

International applicants may view further information on admissions requirements at Entry Requirements for International Undergraduate Applicants

The University reserves the right to alter or discontinue its programs as required.

Pathways

Bachelor of Engineering (Honours) might be a pathway for students who meet the Maths pre-requisites but do not have the required score for direct entry into this program.

Eligible students should enrol into a Bachelor of Engineering (Honours) and if they can maintain a High Distinction average in their first year, they may be approved to transfer into the R&D program in their second year.

Prerequisites

ACT: Mathematical Methods (Major)/Further Mathematics (Major)/Specialist Mathematics/Specialist Methods (Major), NSW: Mathematics or equivalent. More information about interstate subject equivalencies can be found here.

There are no formal program prerequisites. But assumed knowledge is:-ACT: Mathematical Methods (Major)/Further Mathematics/Specialist Mathematics (major)/ Specialist Methods or NSW: Mathematics or equivalent. More information about interstate subject equivalencies can be found here.

Adjustment Factors

A maximum of 5 equity adjustments apply to programs with a minimum selection rank of 98 or higher. Visit the ANU Adjustment Factors website for further information.

Scholarships

ANU offers a wide range of scholarships to students to assist with the cost of their studies.

Eligibility to apply for ANU scholarships varies depending on the specifics of the scholarship and can be categorised by the type of student you are.  Specific scholarship application process information is included in the relevant scholarship listing.

For further information see the Scholarships website.

Program Requirements

The Bachelor of Engineering (Research and Development)(Honours) flexible double degree component requires completion of 156 units, of which:

A maximum of 48 units may come from completion of 1000-level courses

12 units contribute towards the requirement of the other double degree component

The 156 units must include:

84 units from completion of the following compulsory courses:

PHYS1013 Physics of Materials
ENGN1211 Discovering Engineering
ENGN1217 Introduction to Mechanics
ENGN1218 Introduction to Electronics
ENGN2217 Mechanical Systems and Design
ENGN2218 Electronic Systems and Design
ENGN2228 Signals and Systems
ENGN2300 Engineering Design 2: Systems Approaches for Design
ENGN2301 Engineering Design 3: Systems Approaches for Analysis
ENGN2706 Engineering Research and Development Project (Methods)
ENGN3100 Practical Experience (0 units)
ENGN3300 Engineering Design 4A: Systems Approaches for Management
ENGN3301 Engineering Design 4B: Systems Approaches for Operations
ENGN4712 Engineering Research & Development Project (12 units)

12 units from the following BE R&D project courses

ENGN2707 Engineering Research and Development Project
ENGN3706 Engineering Research and Development Project
ENGN3712 Engineering Research and Development Project (6 or 12 units)
ENGN4706 Engineering Research and Development Project

6 units from completion of a core course from the following list:

COMP1100 Programming as Problem Solving
COMP1130 Programming as Problem Solving (Advanced)
COMP1730 Programming for Scientists

6 units from completion of a core course from the following list:

MATH1013 Mathematics and Applications 1
MATH1115 Advanced Mathematics and Applications 1

6 units from completion of a core course from the following list:

MATH1014 Mathematics and Applications 2
MATH1116 Advanced Mathematics and Applications 2

A minimum of 6 units from completion of one or more courses from the following list:

ENGN2222 Engineering Thermodynamics
ENGN2219 Computer Architecture and Simulation

48 units from completion of one of the following Engineering majors, of which 12 units contribute towards meeting the course requirements listed above:

Biomedical Systems

Electronic and Communication Systems

Mechanical and Material Systems

Mechatronic Systems

Photonic Systems

Renewable Energy Systems

Students must achieve a minimum 75% weighted average mark across all compulsory courses undertaken in each period (Summer/First Semester/Autumn) and (Winter/Second Semester/Spring) in order to continue in the Bachelor of Engineering (Research and Development)(Honours). Students who do not achieve a minimum of 75% weighted average mark will be transferred to the Bachelor of Engineering (Honours) single degree.

Students must achieve a minimum 80% final Honours mark in order to graduate with the Bachelor of Engineering (Research and Development) (Honours). Students who do not achieve a minimum 80% final Honours mark will be transferred to the Bachelor of Engineering (Honours) degree program.

Honours
Students must formally enrol in ENGN4100 Engineering Honours at the commencement of their intended final semester.

Honours Grade Calculation
HONS4700 Final Honours Grade will be used to calculate the Class of Honours and the Mark. It will be calculated as the weighted average mark (WAM) of the courses listed below. The mark for each course is weighted by the units of credit (UoC) of the course, as well as a course weighting as indicated below. WAM is calculated as follows:

WAM = (∑¦?mark*UoC*weighting?)/(∑¦?UoC*weighting?)

Science and Engineering Foundations (0.1 weighting): ENGN1211, COMP1100 or 1730, MATH1013 or 1115,MATH1014 or 1116 and PHYS1013.

Engineering Fundamentals (0.2 weighting): ENGN1217, ENGN1218, ENGN2217, ENGN2218, ENGN2219, ENGN2222, ENGN2228.

Professional Core (0.3 weighting): ENGN2300, ENGN2301, ENGN3300, ENGN3301, ENGN3200.

Engineering Discipline (0.4 weighting): ENGN3000-series and ENGN4000-series electives, , ENGN2706, ENGN2707, ENGN3706, ENGN3712, ENGN4706, ENGN4712 and ENGN4300.

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Actuarial Studies:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Actuarial Studies component of this double degree:

    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Advanced Computing (Honours):

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Advanced Computing (Honours) component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    ENGN1211 Discovering Engineering
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Advanced Computing (Research and Development) (Honours):

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Advanced Computing (Research and Development) (Honours) component of this double degree:

    COMP1130 Programming as Problem Solving (Advanced)
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/ Bachelor of Applied Data Analytics:

12 units required for the Bachelor of Engineering contribute towards the Bachelor of Applied Data Analytics component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    COMP1730 Programming for Scientists
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Arts:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Arts component of this double degree:

    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Biotechnology:

12 units of 3000-level ENGN courses required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the requirement to complete “12 units of elective Science courses at 3000/4000 level’ in the Bachelor of Biotechnology component of this double degree

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Business Administration:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Business Administration component of this double degree:

    COMP1100 Programming as Problem Solving
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Commerce:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Commerce component of this double degree:

    COMP1100 Programming as Problem Solving
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Economics:

12 units from completion of courses from the following list required for the Bachelor of Engineering contribute towards the Bachelor of Economics component of this double degree:

    COMP1100 Programming as Problem Solving
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Honours)/Bachelor of Environment and Sustainability

12 units from completion of courses from the subject area COMP and ENGN required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the electives from the Science Course List for the Bachelor of Environment and Sustainability component of this double degree.

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Finance:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Finance component of this double degree:

    COMP1100 Programming as Problem Solving
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Information Technology:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Information Technology component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    ENGN1211 Discovering Engineering
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II
    COMP1730 Programming for Scientists towards the requirement to complete a minimum of 6 units of further courses from the subject area COMP

For Bachelor of Engineering (Honours)/Bachelor of International Security Studies:

12 units from completion of any courses required for the Bachelor of Engineering (Honours) contribute towards 24 units of university electives for the Bachelor of International Security Studies component of this double degree.

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Languages

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Languages component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    COMP1730 Programming for Scientists
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Mathematical Sciences:

12 units from completion of courses from the subject area COMP and ENGN required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the 24 units of electives from the Science Course List required for the Bachelor of Mathematical Sciences component of this double degree.

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Pacific Studies:

12 units from completion of courses required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards 24 units of university electives for the Bachelor of Pacific Studies component of this double degree:

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Science:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Science component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    COMP1730 Programming for Scientists
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Science (Psychology):

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards 12 units of 1000-level courses from the Science Course List for the Bachelor of Science (Psychology) component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    COMP1730 Programming for Scientists
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Software Engineering (Honours):

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Software Engineering (Honours) component of this double degree:

    COMP1100 Programming as Problem Solving
    COMP1130 Programming as Problem Solving (Advanced)
    ENGN1211 Discovering Engineering
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

For Bachelor of Engineering (Research and Development) (Honours)/Bachelor of Statistics:

12 units from completion of courses from the following list required for the Bachelor of Engineering (Research and Development) (Honours) contribute towards the Bachelor of Statistics component of this double degree:

    COMP1100 Programming as Problem Solving
    MATH1013 Mathematics & Applications 1
    MATH1014 Mathematics & Applications 2
    MATH1115 Advanced Mathematics & Applications I
    MATH1116 Advanced Mathematics & Applications II

Majors
Biomedical Systems
Electronic and Communication Systems
Mechanical and Material Systems
Mechatronic Systems
Photonic Systems
Renewable Energy Systems

The major in Photonic Systems Is not available in a Flexible Double Degree, with the exception of the double degree with the Bachelor of Science

Minors
Biomedical Systems
Electronic and Communication Systems
Mechanical and Material Systems
Mechatronic Systems
Photonic Systems
Renewable Energy Systems
Sustainable Systems

Elective Study
Once you have met the program requirements of your degree, you may have enough electives to complete an additional elective major, minor or specialisation.

The Bachelor of Finance flexible double degree component requires completion of 96 units, of which:

A maximum of 48 units may come from completion of 1000-level courses

The 96 units must include:

24 units from completion of the following compulsory courses

BUSN1001 Business Reporting and Analysis

ECON1101 Microeconomics 1

FINM1001 Foundations of Finance

STAT1008 Quantitative Research Methods

6 units from completion of a course from the following list:

ECON1100 Economics 1 (H)

ECON1102 Macroeconomics 1

6 units from completion of a course from the following list:

BUSN2036 Financial Statement Analysis

EMET1001 Foundations of Economic and Financial Models

MATH1013 Mathematics and Applications 1

MATH1115 Advanced Mathematics and Applications 1

MATH1113 Mathematical Foundations for Actuarial Studies

MKTG2003 Marketing for Financial Services

STAT2032 Financial Mathematics

6 units from completion of a course from the following list:

     ECON2101 Microeconomics 2 (P)

     ECON2111 Microeconomics 2 (H)

48 units from completion of one of the following majors:

Asian Capital Markets

Capital Markets

Quantitative Finance

6 units from completion of courses from List 1 of the ANU College of Business and Economics

If your flexible double degree is within the College of Business and Economics (for example Commerce and Economics), the below study plan may show the same course twice. If this is the case, you must only do the course once and replace the other course with a University Wide Elective or CBE List 1 elective. Please note that you cannot exceed 8 out of college electives.

The minor in Business and Economics Essentials will not be listed on transcripts for students completing the Bachelor of Commerce.

For majors and minors offered by the ANU College of Business and Economics, students may count a course towards multiple majors and minors. If a minor is a subset of all stated courses and/or prerequisites for a major, then completion of the major overrides completion of the minor, and only the major is regarded as having been completed. If all courses in a major and/or minor are compulsory courses in the degree, the major and/or minor will not be listed on the transcript.

Majors

Bachelor of Finance Majors

Bachelor of Engineering (Research and Development) (Honours) Majors

Minors

Bachelor of Engineering (Research and Development) (Honours) Minors

Bachelor of Finance Minors

Study Options

Honours

Students must formally enrol in ENGN4100 Engineering Honours at the commencement of their intended final semester.

Students who excel in the pass degree may be invited to undertake an honours year. The Honours year extends the undergraduate material and focuses on highly complex, analytical and practical problems. Students undertake a program of advanced coursework and a research thesis. Students from other universities are also able to join the Honours Program after completing the pass degree requirements in their own institutions.

Students who are interested in the Honours Program should consult the Honours Convenor in the Research School of Finance, Actuarial Studies & Statistics for advice.