Mathematical Sciences (Honours)

The Bachelor of Mathematical Sciences (Honours) requires four years of full-time study (or the equivalent part-time).The course is offered by the College of Science and Engineering.

To qualify for the Bachelor of Mathematical Sciences (Honours), a student must complete 144 units with a grade of P or NGP or better in each topic, according to the program of study below.

Students achieving a credit level average or better at the end of third year will be allowed to enrol in the fourth year of the program. Other students will be eligible to graduate in the ordinary degree program.

No more than 45 units of First Year topics may be counted towards the degree.

Not all topics are necessarily available in a given year.

Students who have completed 108 units according to the first three years of the Program may choose to exit with the Bachelor of Mathematical Sciences.

Core - Year 1 topics

36 units comprising:

MATH1121 Mathematics 1A (4.5 units) MATH1122 Mathematics 1B (4.5 units) STAT1121 Data Science (4.5 units) STAT1132 Statistics 1 (4.5 units) ENGR1401 Professional Skills (4.5 units)

Plus one of:

COMP1102 Computer Programming 1 (4.5 units) OR ENGR1721 Engineering Programming (4.5 units)

Plus 9 units of elective topics from across the University

Core - Year 2 topics

36 units comprising:

MATH2701 Principles of Analysis (4.5 units) MATH2702 Linear Algebra and Differential Equations (4.5 units) MATH2711 Several Variable Calculus (4.5 units) MATH2722 Numerical Analysis (4.5 units) STAT2701 Statistical Project (4.5 units) STAT2702 Probability (4.5 units) COMP2781 Computer Mathematics (4.5 units)

Plus 4.5 units of elective topics from across the University

Core - Year 3 topics

36 units comprising: MATH3702 Methods of Applied Mathematics (4.5 units) MATH3711 Complex Analysis (4.5 units) MATH3712 Partial Differential Equations (4.5 units) MATH3731 Algebra (4.5 units) STAT3701 Statistical Science (4.5 units) STAT3702 Stochastic Processes (4.5 units)

Plus 9 units of elective topics from across the University#

Core - Honours Year topics

36 units comprising: MATH7700A Honours Thesis (4.5/18 units) MATH7700B Honours Thesis (4.5/18 units) MATH7700C Honours Thesis (4.5/18 units) MATH7700D Honours Thesis (4.5/18 units)

Plus 18 units selected from^:

COMP7707 Advanced Data Mining (4.5 units) ENGR7961 Finite Element Methods (4.5 units) MATH7707 Optimisation (4.5 units) MATH7720 Advanced Studies in Mathematics A (4.5 units) MATH7721 Advanced Studies in Mathematics B (4.5 units) MATH7722 Calculus of Variations (4.5 units) MATH7731 Mathematical Problems in Industry (4.5 units) MATH7732 Real Analysis (4.5 units)

#Eligible students may select the following work experience topic in place of electives, with the approval of the Course Coordinator. MATH3721 Mathematical Sciences Practicum (9 units)

^ Appropriate options made available by other Colleges or Universities, including through the AMSI Summer School, may also be included subject to approval by the Course Cordinator.

Combined degrees

The Bachelor of Mathematical Sciences (Honours) may also be studied in a combined degree program with another Bachelor degree in the College of Science and Engineering where the combination meets the requirements of the credit transfer policy.

The minimum requirements for consideration for entry to all undergraduate courses are specified in detail in the University Entry Requirements.

Successful completion of either SACE Stage 2 (Year 12) Mathematical Methods or Specialist Mathematics or International Baccalaureate Mathematics (SL or HL) is normally required for entry to the Bachelor of Mathematical Sciences (Honours).

Students must achieve a credit level average or better at the end of third year in order to be eligible to continue to the fourth year Honours degree program in Mathematical Sciences.

On completion of the award, students will be able to:

• proficiently use advanced mathematical skills and knowledge to analyse and systematically develop complex systems
• demonstrate a broad understanding of the mathematical sciences discipline
• apply their skills and knowledge in a professionally responsible manner
• communicate effectively with other mathematicians and the wider global community
• work professionally as an individual and in a team
• develop mathematical solutions that address problems arising from a variety of social, political, international, economic and environmental contexts
• engage in the process of continuing learning needed to retain the necessary level of professional skills and knowledge in the area of mathematics and statistics.

On completion of the honours year, students will also be able to:

• plan and execute a research project, applying relevant methodologies and knowledge
• demonstrate a deeper understanding of some areas of discipline-specific knowledge
• apply research skills appropriate to postgraduate research or advanced industrial investigation.