Flexible Double Degree – Engineering or Advanced Computing

Length 5 years full-time
Minimum 240 Units

Admission requirements

Prerequisites Adjustment factors availability

Academic plan AACRD / BGENE
CRICOS code 079094C
UAC code 135010

Academic contact

If you want to explore the cutting edge of research in computing and gain skills that will enable you to development software that tackles complex problems then you are looking at the right degree.

This is a unique, interdisciplinary program that will prepare you to be a future leader of the information and communications technology revolution. It also is a great pathway to a PhD.

As a degree accredited by the Australian Computer Society you will not only learn advanced computing techniques and have the opportunity to complete a unique specialisation, but also develop exceptional professional skills including communication and teamwork.

You’ll work alongside distinguished researchers at ANU and pursue research projects in your own area of interest.

While some of our students are developing code which controls unmanned aerial vehicles, others are busy writing algorithms to mine through Petabytes of data. If mastering challenging projects is your thing, the ANU Bachelor of Advanced Computing (Research and Development) can launch you into a spectacular career

This program is not available for Semester 2 commencement.

Delve into the complex and fascinating world of genetics and unravel the mysteries of DNA, understand how genes interact with the environment and drive evolution, and how your heredity determines your risk of developing certain diseases.

When you study a Bachelor of Genetics you’ll learn how genes hold our hereditary information which determines everything from hair colour and height to complex issues surrounding health risks. You’ll also study classical genetics, molecular genetics, population genetics, and bioinformatics. You can even follow interests in areas as diverse as plant genetics, evolutionary genetics, medicine and health or biological anthropology.

Study a Flexible Double Degree to extend your interests further by combining this degree with almost any other at ANU. Whatever you choose, an ANU degree in genetics will kick start your career in a modern and dynamic field.

For more information on our educational offerings, the university experience, career opportunities and student stories please visit our website.

Get the inside story on what it’s like to be an ANU student by visiting our student blog.

Career Options

Graduates from ANU have been rated as Australia's most employable graduates and among the most sought after by employers worldwide.

The latest Global Employability University Ranking, published by the Times Higher Education, rated ANU as Australia's top university for getting a job for the fourth year in a row.

Employment Opportunities

Innovative solutions come to those working in R&D. Graduates can choose to work in ICT R&D in the public or private sector, and in academia.

They can work across a range of industries in a variety of roles. Examples include:

Data Mining Specialist
Big Data Analyst
Human-Computer Interaction Specialist,
Software Developer
Embedded systems developer
Network Architect
Systems Analyst
Computer Engineer
Advanced Software Solutions Engineer
Software Architect

Our graduates work in many organisations including:

IBM
Google
Microsoft
Yahoo
Intel
Price Waterhouse Coopers
Accenture Australia
Bloomberg
National Australia Bank
Citigroup
Deloitte
Unisys
Australian Government (Australian Taxation Office, Reserve Bank of Australia, Department of Broadband, Communication and the Digital Economy, etc.)

Innovative solutions come to those working in R&D. Graduates can choose to work in ICT R&D in the public or private sector, and in academia.

They can work across a range of industries in a variety of roles. Examples include:

Data Mining Specialist
Big Data Analyst
Human-Computer Interaction Specialist,
Software Developer
Embedded systems developer
Network Architect
Systems Analyst
Computer Engineer
Advanced Software Solutions Engineer
Software Architect

Our graduates work in many organisations including:

IBM
Google
Microsoft
Yahoo
Intel
Price Waterhouse Coopers
Accenture Australia
Bloomberg
National Australia Bank
Citigroup
Deloitte
Unisys
Australian Government (Australian Taxation Office, Reserve Bank of Australia, Department of Broadband, Communication and the Digital Economy, etc.)

Learning Outcomes

Upon successful completion, students will be able to:

1. Define and analyse complex problems, and design, implement and evaluate solutions that demonstrate an understanding of the systems context in which software is developed and operated including economic, social, historical, sustainability and ethical aspects,

2. Demonstrate an operational and theoretical understanding of the foundations of computer science including programming, algorithms, logic, architectures and data structures,

3. Recognise connections and recurring themes, including abstraction and complexity, across the discipline,

4. Adapt to new environments and technologies, and to innovate,

5. Demonstrate an understanding of deep knowledge in at least one area of computer science,

6. Communicate complex concepts effectively with diverse audiences using a range of modalities,

7. Work effectively within teams in order to achieve a common goal,

8. Demonstrate commitment to professional conduct and development that recognises the social, legal and ethical implications of their work, to work independently, and self- and peer-assess performance,

9. Demonstrate a deep understanding of the fundamentals of research methodologies, including defining research problems, background reading and literature review, designing experiments, and effectively communicating results,

10. Proficiently apply research methods to the solution of contemporary research problems in computer science, and

11. Demonstrate an understanding of research processes including research proposals, article reviewing and ethics clearance.

Further Information

The Bachelor of Advanced Computing (Research & Development) is a four year program that is accredited by the Australian Computing Society. It is specifically designed for exceptional students who have an interest in undertaking research and development in either industry or an academic environment. The program combines a strong foundation in computer science and mathematics, a specialty advanced computing curricula unique to the ANU, and a project based, research intensive course of study, also unique to the ANU. It provides ample scope for the student to pursue research in individual areas of interest, working with researchers of international distinction in the areas of computer science, engineering and mathematics.

A graduate of the program will have a solid grounding in the fundamentals of computing and relevant mathematics, expertise in the software development process, a a familiarity with business aspects of the ICT industry including product innovation and development, technical knowledge in a selection of contemporary and advanced ICT topics, and a solid experience in research methods in the ICT area.

A graduate of the program will have the skills, knowledge and capability to go onto advanced research programs in Computer Science and related areas, and have the potential to become innovators and leaders in the Information Communication Technology (ICT) discipline.

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

ATAR:: 99
QLD Band:: 1
International Baccalaureate:: 42

Domestic applicant entry requirements

Queensland Band equivalents are a guide only - selection is made on a UAI 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 Advanced Computing (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 Bachelor of Advanced Computing (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: Specialist Mathematics (major/minor).

NSW: HSC Mathematics Extension 1.

ACT major in Chemistry or NSW HSC Chemistry or equivalent.

Students who do not meet the chemistry requirement may be admitted into the program via a different pathway. Students who:

Have an ATAR score of 90 or higher, and

Commence the Bachelor of Science program after completion of the chemistry bridging course available in February through the ANU Research School of Chemistry (or equivalent) and complete CHEM1101 and BIOL1003 with a minimum average of 65%, may then apply to transfer to the Bachelor of Genetics.

Adjustment Factors

Bonus points to do not apply to programs with an ATAR cutoff of 98 or higher. They do not apply to this program.

Bachelor of Advanced Computing (Research and Development) (Honours) - Commonwealth Supported Place (CSP)

Bachelor of Genetics - Commonwealth Supported Place (CSP)

For more information see: http://www.anu.edu.au/students/program-administration/costs-fees

Annual indicative fee for international students: $39,024.00

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

This double degree requires the completion of 240 units.

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

A maximum of 60 units may come from completion of 1000-level courses

12 units count towards the requirements of the other double degree component

The 156 units must include:

84 units from completion of compulsory courses from the following list:

COMP1130 Programming as Problem Solving (Advanced)

COMP1140 Structured Programming (Advanced)

COMP1600 Foundations of Computing

COMP2100 Software Design Methodologies

COMP2120 Software Engineering

COMP2300 Computer Organisation and Program Execution

COMP2310 Systems, Networks and Concurrency

COMP2420 Introduction to Data Management, Analysis and Security

COMP2550 Advanced Computing R&D Methods

COMP2560 Studies in Advanced Computing R&D

COMP3600 Algorithms

COMP3770 Individual Research Project (12 units)

MATH1005 Discrete Mathematical Models

6 units from completion of course from the following list:

MATH1013 Mathematics and Applications 1

MATH1115 Advanced Mathematics and Applications 1

6 units from completion of course from the following list:

MATH1014 Mathematics and Applications 2

MATH1116 Advanced Mathematics and Applications 2

STAT1003 Statistical Techniques

STAT1008 Quantitative Research Methods

24 units from completion of one of the following specialisations:

Intelligent Systems

Systems and Architecture

Theoretical Computer Science

24 units from completion of COMP4550 Advanced Computing Research Project

Students must achieve a minimum 80% weighted average mark across all compulsory courses in the Bachelor of Advanced Computing (Research and Development) (Honours) component undertaken in each period (Summer/First Semester/Autumn) and (Winter/Second Semester/Spring) in order to continue in the Bachelor of Advanced Computing (Research and Development) (Honours). Students who do not achieve a minimum of 80% weighted average mark will be transferred from the Bachelor of Advanced Computing (Research and Development) (Honours) double degree to the equivalent to the Bachelor of Advanced Computing (Honours) double degree.

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

HONS4700 Final Honours Grade will be used to record the Class of Honours and the Mark. The Honours Mark will be a weighted average percentage mark (APM) calculated by first calculating the average mark for 1000,2000, 3000 and 4000 level courses. We denote these averages: A1, A2, A3, and A4 respectively. The averages are computed based on all units counted towards satisfaction of degree requirements, excluding non-COMP electives. Finally these averages are combined using the formula APM = (0.1 X A1) + (0.2 X A2) + (0.3 X A3) + (0.4 X A4).

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

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

For Bachelor of Advanced Computing (Research and Development) (Honours)/Bachelor of Asia-Pacific Security:

12 units from completion of courses required for the Bachelor of Advanced Computing (Research and Development) (Honours) contribute towards the electives for the Bachelor of Asia-Pacific Security component of this double degree:

For Bachelor of Advanced Computing (Research and Development) (Honours)/Bachelor of Asia-Pacific Studies:

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

12 units of 3000-level COMP courses required for the Bachelor of Advanced Computing (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

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

It is not possible to complete the Professional Accounting requirements in the Bachelor of Commerce in the double degree.

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

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

The completion of STAT1003 Statistical Techniques and COMP1130 Introduction to Advanced Computing I in the Bachelor of Advanced Computing (Research and Development) (Honours)satisfies the requirement to complete STAT1003 Statistical Techniques and COMP1100 Introduction to Programming and Algorithms in the Bachelor of Genetics component

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

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

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

For Bachelor of Advanced Computing (Research and Development) (Honours)/Bachelor of Science (Forest Sciences):

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

For Bachelor of Advanced Computing (Research and Development) (Honours)/Bachelor of Science (Resource and Environmental Management):

6 units from completion of MATH1115 Mathematics & Applications I Honours in the Bachelor of Advanced Computing (Research and Development) (Honours) satisfies the requirement to complete “6 units from completion of courses from the Science course list” in the Bachelor of Science (Resource and Environmental Management)

6 units from completion of 3000-level COMP courses in the Bachelor of Advanced Computing (Research and Development) (Honours) counts towards the requirement to complete “18 units from completion of 3000-level courses from the subject areas EMSC or ENVS” in the Bachelor of Science (Resource and Environmental Management)

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

MATH1115 Mathematics & Applications I Honours

MATH1116 Mathematics & Applications II Honours

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

A maximum of 36 units may come from completion of 1000-level courses

A minimum of 36 units must come from completion of 3000-level courses from the Science course list

The 96 units must include:

66 units from completion of the following compulsory courses:

BIOL1003 Evolution, Ecology & Genetics

BIOL1004 Molecular & Cell Biology

CHEM1101 Chemistry 1

CHEM1201 Chemistry 2

BIOL2151 Genetics

BIOL2161 Genes: Replication and Expression

BIOL2162 Molecular Genetic Techniques

BIOL2202 Experimental Design and Analysis in Biology

BIOL3157 Bioinformatics and Functional Genomics

BIOL3161 Genomics & its Applications

BIOL3204 Genetics of Human Disease 1

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

BIOL1009 Diversity of Life

COMP1100 Introduction to Programming and Algorithms

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

STAT1003 Statistical Techniques

STAT1008 Quantitative Research Methods

BIOL2001 Introduction to Quantitative Biology

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

BIOL3114 Vertebrate Biology

BIOL3113 Invertebrate Biology

BIOL3002 Plants: Genes to Environment

BIOL3003 Plant Physiological Ecology

BIOL3201 Big Questions in Biology

BIOL3109 Ecological & Evolutionary Developmental Biology

BIOL3141 Infection and Immunity

BIOL3144 Advanced and Applied Immunology

BIOL3177 Advances in Molecular Plant Sciences

BIOL3191 Biology, Society and Ethics

BIOL3193 Bacteria and Health

BIOL3205 Genetics of Human Disease 2

BIOL3108 Hallmarks of Cancer

BIOL3206 Evolution of Biodiversity

BIOL3208/BIOL3209 Biology Research Project

BIAN3016 Analysis of Mammalian Remains

BIAN3113 Human Evolution

Students enrolled in the Bachelor of Genetics must maintain an average of 65% in all Science courses each semester to remain this program. Students who do not maintain 65% will be transferred to the 3 year BSc program.

A maximum of 12 units from completion of 1000-level courses may contribute towards meeting the requirements of two Science majors with common 1000-level course requirements. In such cases, an equal number of units must come from the completion of additional courses from the Science course list.

Specialisations

Bachelor of Genetics Specialisations

Biomedical Science

Evolution and Ecology

Microbiology and Immunology

Bachelor of Advanced Computing (Research and Development) (Honours) Specialisations

Intelligent Systems

Systems and Architecture

Theoretical Computer Science

Study Options

Year 1	COMP1130 Programming as Problem Solving (Advanced) 6 units	STAT1003 Statistical Techniques 6 units	MATH1115 Advanced Mathematics and Applications 1 6 units	CHEM1101 Chemistry 1 6 units
Year 1	COMP1140 Structured Programming (Advanced) 6 units	COMP2600	MATH1116 Advanced Mathematics and Applications 2 6 units	CHEM1201 Chemistry 2 6 units
Year 2	COMP2100 Software Design Methodologies 6 units	COMP2550 Advanced Computing R&D Methods 6 units	COMP2300 Computer Organisation and Program Execution 6 units	BIOL1003 Biology 1: Evolution, Ecology and Genetics 6 units
Year 2	COMP2130 Software Analysis and Design 6 units	COMP2310 Systems, Networks and Concurrency 6 units	COMP2560 Studies in Advanced Computing R&D 6 units	BIOL1004 Biology 2: Molecular and Cell Biology 6 units
Year 3	COMP3120 Managing Software Development 6 units	COMP3530 Systems Engineering for Software Engineers 6 units	BIOL2161 Genes: Replication and Expression 6 units	BIOL2151 Genetics 6 units
Year 3	COMP3600 Algorithms 6 units	MGMT3027 Entrepreneurship and Innovation 6 units	BIOL2162 Molecular Gene Technology 6 units	Science course 6 units
Year 4	COMP3550 Advanced Computing R&D Project 6 units	COMP3630 Theory of Computation 6 units	BIOL3161 Genomics and its Applications 6 units	BIOL3204 Genetics of Human Disease 1 6 units
Year 4	COMP3550 Advanced Computing R&D Project 6 units	COMP 3000/4000 elective 6 units	3000 level Science course 6 units	3000 level Science course 6 units
Year 5	COMP4550 Advanced Computing Research Project 12 units	COMP4550	COMP 3000/4000 elective 6 units	3000 level Science course 6 units
Year 5	COMP4550 Advanced Computing Research Project 12 units	COMP4550	COMP 3000/4000 elective 6 units	3000 level Science course 6 units

Honours

Students who attain a sufficient standard in the pass degree may be admitted to the Honours year to become candidates for the degree with Honours.

See the Honours Degree listed in the Bachelor of Science.

Back to the Bachelor of Advanced Computing (Research and Development) (Honours) page

As a high-achieving student in the Bachelor of Advanced Computing (Research & Development) (Honours) (BAC(R&D)) degree you have chosen a unique degree. You will study to become an innovator and a future leader of the ICT revolution by undertaking research with some of the world's leading researchers. You will undertake an accelarated mode of learning, develop a strong foundation in core computer science and be provided with the tools to develop the next generation of computing applications.

The BAC can be taken as a single degree which inlcudes a number of core and compulsory courses. The single degree also offers 48 units (eight courses) of electives that can be taken from additional computing courses (enabling you to complete a Computing major, minor, or specialisation), or from other university courses.

The BAC(R&D) can also be taken as a part of many double degrees. You may not be able to complete a major in a computing discipline but a minor might be possible. You will be able to specialise in other areas as part of the ‘other half’ of your double degree.

Single degree

This degree requires 192 units (each course is typically 6 units)
Typically you will study four courses per semester (total of 24 units)
You will complete a Research and Development major (48 units)
36 units of electives (six courses). These courses may be used to study another computing major (48 units) or specialisation (24 units), or may be taken from other areas of the university.

Double degree

This degree requires 144 units (each course is typically 6 units)
Typically you will study four courses per semester (total of 24 units)
You will complete a Research and Development major (48 units)
There are no university electives in the double degree
You can find your double degree with BAC(R&D) from Program and Courses

About this degree

Typically you will study 4 courses per semester (total of 24 units) as a full time student giving you a total of 24 courses across your whole degree.
The degree comprises compulsory requirements, additional computing electives, research and development projects, internship and electives in the single degree.
There are no electives in the double degree but you still may be able to study a computing specialisation (24 units).
In your first year in the double degree, MATH1115 and MATH1116 must be taken as part of the other half of your degree unless otherwise specified.

Enrolment Status

While it is possible to enrol in fewer courses per semester, which is called studying part-time, it will take you longer to finish your program and get your degree. If you are an international study you must always be full-time.

Important things to keep in mind when choosing your 1000-level courses

IF YOU ARE COMMENCING IN JULY YOU SHOULD SEND AN EMAIL TO <studentadmin.cecs@anu.edu.au> FOR ADVICE ABOUT YOUR ENROLMENT OR YOU SHOULD ATTEND AN ENROLMENT ADVICE SESSION AT THE UNIVERSITY IN THE WEEK BEFORE SEMESTER COMMENCES.
As the BAC(R&D) is an advanced degree, you will study both first and second year courses in your first year. First year courses are typically '1000-level' courses ie start with '1' while second year courses typically start with '2'.
Students doing double degrees with business degrees do STAT1008 in place of STAT1003 and take an additional Computing elective.
You need to enrol in courses for both First Semester and Second Semester
You can't study more than four courses (24 units) per semester, eight for the year
You may take 1000-level courses later in your program. But remember you can’t count more than ten 1000-level courses (60 units) towards your single degree or six 1000-level courses (36 units) towards your BAC(R&D) half of the double degree.

Majors and Minors

See available majors and minors for this program

The Research & Development major is a compulsory requirement of both the single and double degrees. You may be able to study a computing major (48 units) or minor/specialisation (24 units) in the single degree. The ATTACHED DOCUMENT has more information about first year courses that are suitable for the majors.

It is not possible to complete a computing major (apart from the R&D major) in a double degree but a specilisation is possible. You do not need to make decisions about minors/specialisations until later in your degree.

Electives

If you are in the single degree, you will have just one university elective to choose. This is in your second semester.

To find 1000-level courses, use the CATALOGUE SEARCH

Suggested electives in your first year can be found in the pdf document that is an attachment in the above section about Majors and Minors.

Some popular choices for electives include: INFS1001, COMP1720, COMP2400. You can use the catalogue search function to find descriptions of these.

Study Options

Bachelor of Advanced Computing (Research & Development) (Honours)

Study Options

Year 1 48 units	COMP1130 Programming as Problem Solving (Advanced) 6 units	COMP2300 Computer Organisation and Program Execution 6 units	MATH1115 Advanced Mathematics and Applications 1 6 units	STAT1003 Statistical Techniques 6 units
Year 1 48 units	COMP1140 Structured Programming (Advanced) 6 units	COMP2600	MATH1116 Advanced Mathematics and Applications 2 6 units	Elective course 6 units

Bachelor of Advanced Computing (Research & Development) (Honours)

Study Options

Year 1 48 units	COMP1130 Programming as Problem Solving (Advanced) 6 units	COMP2300 Computer Organisation and Program Execution 6 units	MATH1115 Advanced Mathematics and Applications 1 6 units	Other Degree course
Year 1 48 units	COMP1140 Structured Programming (Advanced) 6 units	COMP2600	MATH1116 Advanced Mathematics and Applications 2 6 units	Other Degree course

Academic Advice

For assistance, please email: studentadmin.cecs@anu.edu.au

Back to the Bachelor of Genetics page

Do you want to unravel the mysteries of the double helix, understand how genes interact with the environment and know how your parents set the scene for your life before you were even born?

The field of genetics is a multidisciplinary science which has progressed rapidly over the last fifty years, becoming increasingly important in modern society.

The ANU Bachelor of Genetics offers a variety of courses covering classical genetics, molecular genetics, population genetics, and bioinformatics.

By specialising in genetics and understanding the structure and function of genes, you will learn how to apply the techniques of genomics, bioinformatics and molecular genetics to an ever-increasing range of exciting careers in medical biology, plant science and conservation.

This program is not available for Semester 2 commencement.

The Bachelor of Genetics can also be taken as a part of many double degrees.

Single degree

This degree requires 144 units
A maximum of 60 units of 1000 level courses
A minimum of 36 units 3000 level Science courses
An average of 65% in core Science courses must be maintained to remain in the program
Other courses from Science or another ANU College (maximum non-science allowed 48 units)

Double degree

This degree requires 96 units Science courses
A maximum of 36 units of 1000 level Science courses
A minimum of 36 units 3000 level Science courses
An average of 65% in core Science courses must be maintained to remain in the program
Other courses from the Science course list

About this degree

Single degree

In a Bachelor of Genetics single degree program you will study a total of 144 units. Typically you will take 4 courses per semester (total of 24 units) as a full time student giving you a total of 24 courses across your whole degree.

You will need to complete a minimum of 16 science courses (96 units) but will also get to choose eight courses (48 units) from other ANU Colleges. You can try a range of courses or take a major or minor in a non-Science subject, such as history or marketing. The choice is yours.

Double degree

In a Bachelor of Genetics double degree program you will study a total of 96 units. Typically you will take 4 courses per semester (total of 24 units) as a full time student giving you a total of 16 courses across your whole degree. However, for each semester you are likely to take 2 courses from your Genetics degree and then 2 courses from the other half of your double degree – still a total of 4 courses a semester.

Enrolment Status

It is possible to enrol in fewer courses per semester but it will take you longer to finish your program and get your degree. If you are an international student you must always be enrolled full-time in 24 units each semester.

You need to enrol in courses for both First Semester and Second Semester.
You can’t study more than four courses (24 units) per semester, eight for the year.
You may take 1000-level courses later in your program. But remember you can’t count more than ten 1000-level courses (60 units) towards your single degree or six 1000-level courses (36 units) towards your Genetics half of the double degree.

Electives

Remember you can choose up to 8 courses from another ANU College if you are undertaking the single Bachelor of Genetics program.

Study Options

Bachelor of Genetics - single degree

This is a typical study pattern for the first year of a student undertaking a Bachelor of Genetics.

Study Options

Year 1 48 units	CHEM1101 Chemistry 1 6 units	BIOL1003 Biology 1: Evolution, Ecology and Genetics 6 units	Science or non-science course 6 units	Science or non-science course 6 units
Year 1 48 units	CHEM1201 Chemistry 2 6 units	BIOL1004 Biology 2: Molecular and Cell Biology 6 units	Science or non-science course 6 units	Science or non-science course 6 units

Bachelor of Genetics - double degree

This is a typical study pattern for the first year of a student undertaking a Bachelor of Genetics with another three year degree, such as the Bachelor of Arts or Bachelor of Science . Please note that for some double degrees (e.g. with Bachelor of Engineering) you may only be able to take one course in semester 1 for your science degree. In these circumstances it is recommended that in your first year you take CHEM1101, CHEM1201 and BIOL1004. You can then take BIOL1003 in your second year of study.

Study Options

Year 1 48 units	CHEM1101 Chemistry 1 6 units	BIOL1003 Biology 1: Evolution, Ecology and Genetics 6 units	Degree B Course 6 units	Degree B Course 6 units
Year 1 48 units	CHEM1201 Chemistry 2 6 units	BIOL1004 Biology 2: Molecular and Cell Biology 6 units	Degree B Course 6 units	Degree B Course 6 units

Academic Advice

For further information, you can:

Visit the Research School of Biology webpage here, or
Download the Science first year course guide available here, or
View our program presentation videos located on our New commencers & first year students page, or
Email us at science.enquiries@anu.edu.au, or
Come and talk to someone face-to-face. You can make an appointment with an academic advisor here or by calling Science Central on 6125 2809.

Back to the top

Bachelor of Advanced Computing (Research and Development) (Honours) / Bachelor of Genetics

Career Options

Employment Opportunities

Learning Outcomes

Further Information

Admission Requirements

Pathways

Prerequisites

Adjustment Factors

Indicative fees

Scholarships

Program Requirements

Specialisations

Bachelor of Genetics Specialisations

Bachelor of Advanced Computing (Research and Development) (Honours) Specialisations

Study Options

Honours

Single degree

Double degree

About this degree

Enrolment Status

Important things to keep in mind when choosing your 1000-level courses

Majors and Minors

Electives

Study Options

Bachelor of Advanced Computing (Research & Development) (Honours)

Study Options

Bachelor of Advanced Computing (Research & Development) (Honours)

Study Options

Academic Advice

Single degree

Double degree

About this degree

Enrolment Status

Electives

Study Options

Bachelor of Genetics - single degree

Study Options

Bachelor of Genetics - double degree

Study Options

Academic Advice