• Length 5 years full-time
  • Minimum 240 Units
Admission requirements
Prerequisites Adjustment factors availability
  • Academic plan AENGI / BGENE
  • CRICOS code 079094C
  • UAC code 135010
Bachelor of Engineering (Honours) / Bachelor of Genetics

Do you want to make solar energy more efficient and live in a sustainable city, or create new technologies in robotics, uncrewed aircraft and wireless internet of things? This is the degree for you!


The ANU Bachelor of Engineering boasts many unique characteristics, but best of all, it is built on a 'multidisciplinary systems' approach. What does that mean? Successful engineers need to understand how disciplines work together. Our state-of-the-art education experience ensures that you will be able to design, analyse and manage the complex systems of the future.


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.

Explore the complex and fascinating world of genetics and unravel the mysteries of DNA with the ANU Bachelor of Genetics.

You’ll learn how genes hold our hereditary information, study classical genetics, molecular genetics, population genetics, and bioinformatics. You can even follow interests in areas as diverse as plant genetics, evolutionary genetics or medicine and health.

Studying at ANU means you’ll be exposed to ground-breaking research being undertaken by our academics in active research laboratories at the Research School of Biology and the John Curtin School of Medical Research, Australia’s national medical research institute.

Find out more about genetics, the degree structure, the university experience, career opportunities and student stories on our website.

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

This program is not available for Semester 2 commencement.

Career Options

ANU ranks among the world's very finest universities. Our nearly 100,000 alumni include political, business, government, and academic leaders around the world.

We have graduated remarkable people from every part of our continent, our region and all walks of life.

Employment Opportunities

Work experience

As a part of your degree you will take part in 60 days of work experience to meet accreditation requirements with Engineers Australia. This provides you with the opportunity to integrate academic theory and real world practice, enhance technical and leadership skills, experience a professional setting, whilst also making valuable connections with industry.


Projects

In addition to compulsory work experience you will also undertake systems engineering projects during your coursework. In these projects you will work in teams on a given problem statement and develop the requirements and key performance indicators to guide you through the design. Your team will then proceed through a systems design process including conceptual design, sub-system requirements, and quantitative trade-off analyses, using the full range of engineering science and professional skills developed during your program.


Projects emphasise teamwork, communication skills, team and personal management and a professional approach to engineering design, all of which are highly valuable traits for an engineer.


Internships

Our industry links enable opportunities to undertake internships which allow you to gain hands-on experience in a workplace environment relevant to your area of future career interests and current academic studies.


You can also receive credit towards your program based on learning outcomes during your placement.


Other practical experience

Use your knowledge to create a positive impact on society through our Engineers Without Borders placements, participate in Humanitarian Design Summits or go on exchange to complement your students and broaden your networks at one of our partner universities around the world.


Employment opportunities

As an accredited engineer with a systems engineering background, you will bring extra value to future employers in a diverse range of professions and organisations. The skills and abilities you gain while studying at ANU are highly sought after by employers both, in Australia and overseas.


Our approach provides our graduates pathways to progress into senior management roles due to their understanding of more than one engineering discipline.


Due to this, engineering at ANU is often considered as a springboard into the wider corporate world and our graduates find work in many leading organisations such as ABB, Accenture, Department of Defence, CEA Technologies, Cochlear Limited, Energy Australia, Ford, GHD, IBM, Northrop Consulting Engineers, Qantas, Telstra, Thales and Toyota.

Work experience

As a part of your degree you will take part in 60 days of work experience to meet accreditation requirements with Engineers Australia. This provides you with the opportunity to integrate academic theory and real world practice, enhance technical and leadership skills, experience a professional setting, whilst also making valuable connections with industry.


Projects

In addition to compulsory work experience you will also undertake systems engineering projects during your coursework. In these projects you will work in teams on a given problem statement and develop the requirements and key performance indicators to guide you through the design. Your team will then proceed through a systems design process including conceptual design, sub-system requirements, and quantitative trade-off analyses, using the full range of engineering science and professional skills developed during your program.


Projects emphasise teamwork, communication skills, team and personal management and a professional approach to engineering design, all of which are highly valuable traits for an engineer.


Internships

Our industry links enable opportunities to undertake internships which allow you to gain hands-on experience in a workplace environment relevant to your area of future career interests and current academic studies.


You can also receive credit towards your program based on learning outcomes during your placement.


Other practical experience

Use your knowledge to create a positive impact on society through our Engineers Without Borders placements, participate in Humanitarian Design Summits or go on exchange to complement your students and broaden your networks at one of our partner universities around the world.


Employment opportunities

As an accredited engineer with a systems engineering background, you will bring extra value to future employers in a diverse range of professions and organisations. The skills and abilities you gain while studying at ANU are highly sought after by employers both, in Australia and overseas.


Our approach provides our graduates pathways to progress into senior management roles due to their understanding of more than one engineering discipline.


Due to this, engineering at ANU is often considered as a springboard into the wider corporate world and our graduates find work in many leading organisations such as ABB, Accenture, Department of Defence, CEA Technologies, Cochlear Limited, Energy Australia, Ford, GHD, IBM, Northrop Consulting Engineers, Qantas, Telstra, Thales and Toyota.

Learning Outcomes

  1. Apply systematic engineering methods professionally to design optimised and sustainable solutions to complex and multi-disciplinary engineering problems.
  2. Construct and evaluate solutions to engineering problems by selecting and applying theoretical principles and methods from the underpinning physical, mathematical and information sciences, and broader transdisciplinary knowledge.
  3. Demonstrate advanced technical knowledge and the application of appropriate tools in at least one field of engineering specialisation.
  4. Compare current developments and emerging trends in at least one field of engineering specialisation.
  5. Understand the contextual factors that influence professional engineering practice, such as interpersonal, organizational, institutional, technological, physical, environmental, political and societal factors, and assess the potential societal, cultural, health, legal and environmental impact of engineering activities.
  6. Communicate and incorporate perspectives across disciplines effectively with colleagues, other engineering professionals and the broader community employing a range of communication media and tools.
  7. Engage in independent research through the application of research-based knowledge and research methods, including searching, analysing and evaluating information sources within and beyond their engineering discipline.
  8. Engage responsibly in critical reflection on self-competence to practice ethically 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.
  1. understand and evaluate the significance of genetic information and discoveries in educational and professional contexts;
  2. apply a range of skills and laboratory genetic techniques to addressing specific problems in the field of genetic research;
  3. use a range of analytical techniques for the interpretation of genetic data to address specific hypotheses;
  4. convey and relate professional and disciplinary information and ideas to diverse audiences in effective and appropriate ways;
  5. exercise personal, professional and social responsibility by acting as an interpreter of genetic information in the public domain.

Further Information

Learn more about the degrees offered at the ANU College of Engineering and Computer Science, read current student profiles to see what campus life is really like, and discover what our graduates have achieved since leaving the College - Visit the College of Engineering and Computer Science website.

Learn more about the degrees offered at the ANU College of Engineering and Computer Science, read current student profiles to see what campus life is really like, and discover what our graduates have achieved since leaving the College - Visit the College of Engineering and Computer Science website.

Admission Requirements

At a minimum, all applicants must meet program-specific academic/non-academic requirements, and English language requirements. Admission to most ANU programs is on a competitive basis. Therefore, meeting all admission requirements does not guarantee entry into the program.


In line with the university's admissions policy and strategic plan, an assessment for admission may include competitively ranking applicants on the basis of specific academic achievement, English language proficiency and diversity factors.


The University reserves the right to alter or discontinue its programs and change admission requirements as needed.

ATAR:
85
International Baccalaureate:
32

Domestic applicants

Before applying for a program, you should review the general information about domestic undergraduate admission to ANU programs and how to apply, and the program-specific information below.

  • Applicants with recent secondary education are assessed on:
    • completion of Australian Year 12 or equivalent, and the minimum Selection Rank (from their academic qualifications, plus any adjustment factors) requirement for this program; and
    • co-curricular or service requirement (applies to applicants who complete secondary education in the year prior to commencing at ANU); and
    • English language proficiency; and
    • any program-specific requirements listed below.
  • Applicants with higher education study are assessed on:
    • previous higher education studies; or secondary education results if completed less than one full-time equivalent year (1.0 FTE) of a degree; or the result from a bridging or preparatory course; and
    • English language proficiency; and
    • any program-specific requirements listed below.
  • Applicants with vocational education and training (VET) study are assessed on:
    • previously completed VET qualifications at AQF level 5 or higher (i.e. a Diploma or above); or secondary education results if the VET qualification is not completed; and
    • English language proficiency; and
    • any program-specific requirements listed below.
  • Applicants with work and life experience are assessed on:

International applicants

Applicants who complete a recognised secondary/senior secondary/post-secondary/tertiary sequence of study will be assessed on the basis of an equivalent selection rank that is calculated upon application. A list of commonly observed international qualifications and corresponding admission requirements can be found here. Applicants must also meet any program specific requirements that are listed below.

Diversity factors & English language proficiency  
As Australia’s national university, ANU is global representative of Australian research and education. ANU endeavours to recruit and maintain a diverse and deliberate student cohort representative not only of Australia, but the world. In order to achieve these outcomes, competitive ranking of applicants may be adjusted to ensure access to ANU is a reality for brilliant students from countries across the globe. If required, competitive ranking may further be confirmed on the basis of demonstrating higher-level English language proficiency.

Further information is available for English Language Requirements for Admission

Pathways

There are a range of pathways available to students for entry into Bachelor of Engineering (Honours):

Prerequisites

ACT: Mathematical Methods (Major)/Further Mathematics (Major)/Specialist Mathematics/Specialist Methods (Major)

NSW: HSC Mathematics Advanced or equivalent. More information about interstate subject equivalencies can be found here.

ACT: Chemistry (Major); NSW: Chemistry or equivalent. More information about interstate subject equivalencies can be found here .

  • Students who do not meet the chemistry requirement are advised to seek academic advice by contacting science.enquiries@anu.edu.au. A Chemistry bridging course is available in February through the ANU Research School of Chemistry - contact rsc.teaching@anu.edu.au for more information.

Adjustment Factors

Adjustment factors are additional points added to an applicant's Selection Rank (for example an applicant's ATAR). ANU offers adjustment factors based on performance and equity principles, such as for high achievement in nationally strategic senior secondary subjects and for recognition of difficult circumstances that students face in their studies. 

Selection Rank adjustments are granted in accordance with the approved schedules, and no more than 15 (maximum 5 subject/performance-based adjustment factors and maximum 10 equity-based adjustment factors) can be awarded. 

You may be considered for adjustment factors if you have:

  • applied for an eligible ANU Bachelor degree program
  • undertaken Australian Year 12 or the International Baccalaureate
  • achieved an ATAR or equivalent at or above 70
  • not previously attempted tertiary study.

Please visit the ANU Adjustment Factors website for further information.

Indicative fees

Domestic International

Bachelor of Engineering (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
$50,760.00

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 Engineering (Honours) flexible double degree component requires completion of 144 units, of which:

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

 

The 144 units must include:

72 units from completion of the following compulsory courses:

ENGN1211 Discovering Engineering

ENGN1217 Introduction to Mechanics

ENGN1218 Introduction to Electronics

ENGN2217 Mechanical Systems and Design

ENGN2218 Electronic Systems and Design

ENGN2219 Computer Systems & Organisation

ENGN2222 Engineering Thermodynamics

ENGN2228 Signals and Systems

ENGN2300 Engineering Design 2: Systems Approaches for Design

ENGN2301 Engineering Design 3: Systems Approaches for Analysis

ENGN3100 Practical Experience (0 units)

ENGN3300 Engineering Design 4A: Systems Approaches for Management

ENGN3301 Engineering Design 4B: Systems Approaches for Operations


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

ENGN4300 Capstone Project

ENGN4350 Individual Project


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

PHYS1001 Foundations of Physics

PHYS1101 Physics 1


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

MATH1013 Mathematics and Applications 1

MATH1115 Advanced Mathematics and Applications 1


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

MATH1014 Mathematics and Applications 2

MATH1116 Advanced Mathematics and Applications 2


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

Aerospace Systems

Electronic and Communication Systems

Environmental Systems

Mechatronic Systems

Nuclear Systems

Renewable Energy Systems

Honours

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


Honours Grade Calculation

ENGN4100 Engineering 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 = ( S Mark*UoC*Weighting) / (S UoC*Weighting)

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

The 96 units must include:

60 units from completion of the following compulsory courses:

BIOL1003 Biology 1: Evolution, Ecology & Genetics (6 units)

BIOL1004 Biology 2: Molecular & Cell Biology (6 units)

CHEM1101 Chemistry 1 (6 units)

CHEM1201 Chemistry 2 (6 units)

BIOL2151 Genetics (6 units)

BIOL2161 Genes: Replication and Expression (6 units)

BIOL2162 Molecular Gene Techniques (6 units)

BIOL2202 Experimental Design and Analysis in Biology (6 units)

BIOL3161 Genomics & its Applications (6 units)

BIOL3204 Genetics of Human Disease 1 (6 units)

 

A maximum of 6 units from completion of a computer programming course from the following list:

BIOL2001 Introduction to Quantitative Biology (6 units)

COMP1730 Programming for Scientists (6 units)

 

A minimum of 6 units from completion of a course from the following list

BIOL1009 Diversity of Life (6 units)

BIOL2114 Evolution (6 units)

BIOL2117 Cell Biology (6 units)

BIOL2142 General Microbiology (6 units)

 

A minimum of 18 units from completion of courses from the following list:

BIOL3002 Plants: Genes and the Environment (6 units)

BIOL3108 Hallmarks of Cancer (6 units)

BIOL3109 Developmental Biology (6 units)

BIOL3141 Infection and Immunity (6 units)

BIOL3144 Advanced and Applied Immunology (6 units)

BIOL3157 Bioinformatics and Its Applications (6 units)

BIOL3177 Advances in Molecular Plant Sciences (6 units)

BIOL3178 Recovering Threatened Species and Ecosystems (6 units)

BIOL3188 ANU SynBio Challenge Team Project (6 units)

BIOL3191 Bioethics and Society (6 units)

BIOL3201 Big Questions in Biology (6 units)

BIOL3205 Genetics of Human Disease 2 (6 units)

BIOL3206 Evolution of Biodiversity (6 units)

BIOL3208 Biology Research Project (6 units)

BIOL3209 Biology Research Project (12 units)

BIOL3213 Australian Wildlife (6 units)

BIAN3113 Human Evolution (6 units)

 

6 units from completion from a 2000 or 3000 level course from the following subject area:

BIOL Biology

MEDN Medicine

NEUR Neuroscience

Students must achieve a minimum 65% weighted average mark across all Science courses in the Bachelor of Genetics component undertaken in each period (Summer/First Semester/Autumn) and (Winter/Second Semester/Spring) in order to continue in the Bachelor of Genetics. Students who do not achieve a minimum of 65% weighted average mark will be transferred from the Bachelor of Genetics double degree to the equivalent Bachelor of Science double degree

Majors

Bachelor of Engineering (Honours) Majors

Minors

Bachelor of Engineering (Honours) Minors

Study Options

Year 1 48 units ENGN1211 Discovering Engineering 6 units PHYS1013 MATH1013 Mathematics and Applications 1 6 units Other Degree Course 6 units
ENGN1217 Introduction to Mechanics 6 units ENGN1218 Introduction to Electronics 6 units MATH1014 Mathematics and Applications 2 6 units Other Degree Course 6 units
Year 2 48 units ENGN2217 Mechanical Systems and Design 6 units ENGN2218 Electronic Systems and Design 6 units COMP1730 Programming for Scientists 6 units Other Degree Course 6 units
ENGN2222 Engineering Thermodynamics 6 units ENGN2228 Signals and Systems 6 units Other Degree Course 6 units Other Degree Course 6 units
Year 3 48 units ENGN2300 Engineering Design 2: Systems Approaches for Design 6 units ENGN2219 Computer Systems & Organisation 6 units Other Degree Course 6 units Other Degree Course 6 units
ENGN2301 Engineering Design 3: Systems Approaches for Analysis 6 units ENGN Major Course 6 units Other Degree Course 6 units Other Degree Course 6 units
Year 4 48 units ENGN3300 Engineering Design 4A: Systems Approaches for Management 6 units ENGN Major Course 6 units ENGN Major Course 6 units Other Degree Course 6 units
ENGN3301 Engineering Design 4B: Systems Approaches for Operations 6 units ENGN Major Course 6 units Other Degree Course 6 units Other Degree Course 6 units
Year 5 48 units ENGN4300 Capstone Design Project 6 to 12 units OR ENGN4350; ENGN Major Course 6 units Other Degree Course 6 units Other Degree Course 6 units
ENGN4300 Capstone Design Project 6 to 12 units OR ENGN4350; ENGN Major Course 6 units Other Degree Course 6 units Other Degree Course 6 units

Back to the Bachelor of Engineering (Honours) page

The Bachelor of Engineering (Honours) (BE) is a unique and exciting degree that is professionally accredited by Engineers Australia. The degree encompasses a technical major along with an interdisciplinary systems engineering approach. The degree can be taken as a four year single degree or as a five year double degree. 

No choice of major is required until third year with all students undertaking the same courses in their first two years.

Single degree

  • This degree requires a total of 192 units.
  • You will complete one Engineering major of 48 units.
  • 48 units of university electives. These can be additional Engineering courses (including the option of a minor or another major) or courses from another ANU College.

Double degree

  • The Engineering component of the Flexible Double Degree requires a total of 144 units.
  • You will complete one Engineering major of 48 units.
  • There are no university electives available in a double degree.

About this degree

  • Typically students will enrol in 24 units per semester. This is four, six unit courses per semester. There are some variations in your later years with double weighted (12 unit) courses.
  • A major is typically 48 units of courses and a minor is 24 units. You will need to complete at least one Engineering major in your degree.
  • In the single degree you will have 48 units (eight courses) of university electives. You may use these to do additional engineering courses including an engineering minor or even another engineering major, or you may choose to take other courses of general interest including majors/minors from outside of Engineering. You should note that you can only do a maximum of 60 units of 1000-level courses.
  • In the double degree, you have no electives - your other degree requirements use up all of these.

Enrolment Status

The definition of full-time and part-time status can be found here. While it's possible to enrol in fewer courses per semester, it may take you longer to finish your program and get your degree. If you are an international student you must follow the requirement specified by your Confirmation of Enrolment (CoE) and your visa, which normally require you to enrol in 24 units per semester in order to finish your program of study on time.




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

  • Note that if you are commencing in July you should send an email to <studentadmin.cecs[at]anu.edu.au> for advice about your enrolment or attend an enrolment advice session at the university in the week before semester commences.
MATHS
  • Students who excel in maths and have done the highest level of maths available to them at school should read the following: You may choose to enrol in MATH1115 and MATH1116 (honours maths) in place of MATH1013 and MATH1014. These courses are significantly more difficult and will likely mean a higher workload, but they will give you a much deeper understanding of underlying mathematical concepts, which may be beneficial for your future studies. You are encouraged to seriously consider this option. 
Physics Advice for Bachelor of Engineering Students

  • Both PHYS1001 and PHYS1101 satisfy the compulsory first-year physics requirements for BE students.
  • PHYS1101 – Physics 1 is the recommended first year physics course for BE students. It is also a compulsory pre-requisite for subsequent Physics courses. It is recommended for BE students who are interested to do more Physics courses as electives.
  • PHYS1001 is advised only if you did not complete year 11 and 12 physics.
  • PHYS1001 is offered in Semester 1 only. PHYS1101 is offered in both Semester 1 and Semester 2.
  • It is possible to do PHYS1001 in Semester 1 then PHYS1101 in Semester 2. In this case, PHYS1001 is counted as a 1000 series elective course.

Computing Advice for Bachelor of Engineering Students
  • Both COMP1730 and COMP1100 satisfy the compulsory first-year computing requirements for BE students.
  • Both COMP1730 and COMP1100 are offered in S1 and S2.
  • COMP1730 Programming for Scientists is recommended for BE students who are looking to do a single computing course to satisfy the degree requirements.
  • COMP1100 Programming as Problem Solving is the first of three core computer science courses on programming. It is a compulsory pre-requisite (directly or indirectly) for subsequent computing courses. It is recommended for BE students who are interested to do more Computer Science courses as electives.
  • Students having a strong maths background and significant programming experience might like to choose COMP1130 as the advanced version of the programming course.

Majors and Minors

See available majors and minors for this program

There are a number of Engineering majors and minors for you to choose from. The good news is that you do not need to make any decisions about these until after first year. Just follow the first year enrolment pattern for single and double degrees. If you want more information about majors and minors you can have a look at the Bachelor of Engineering Degree Requirements in the 'Programs and Courses' website

Electives

There is one university elective in your first year of study. If you are in a flexible double degree and need to take more than one course from your other degree during first year, you should consider doing COMP1730 in your 2nd year thus freeing up an elective in second semester of first year.

Study Options

Bachelor of Engineering single degree

Study Options

Year 1 48 units ENGN1211 Discovering Engineering 6 units PHYS1101 Physics I 6 units MATH1013 Mathematics and Applications 1 6 units Elective Course 6 Units
ENGN1217 Introduction to Mechanics 6 units ENGN1218 Introduction to Electronics 6 units MATH1014 Mathematics and Applications 2 6 units COMP1730 Programming for Scientists 6 units

Bachelor of Engineering double degree

Study Options

Year 1 48 units ENGN1211 Discovering Engineering 6 units PHYS1101 Physics I 6 units MATH1013 Mathematics and Applications 1 6 units Other Degree Course
ENGN1217 Introduction to Mechanics 6 units ENGN1218 Introduction to Electronics 6 units MATH1014 Mathematics and Applications 2 6 units Double Degree Course

Academic Advice

  • 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.
  • Remember you can’t count more than ten 1000-level courses (60 units) towards your single degree.

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 30 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 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 30 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.

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

There are 4 compulsory 1000 level Science courses you must take in your first year:


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
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
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:


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