Energy and Advanced Materials (Honours)

To be read in conjunction with the program of study requirements for the Bachelor of Science (Honours) (Specialisations).The Energy and Advanced Materials (Honours) Specialisation requires four years of full-time study (or the equivalent part-time).

The Specialisation is offered by the College of Science and Engineering.

To qualify for the Bachelor of Science (Honours) (Energy and Advanced Materials) specialisation a student must complete 144 units, with a grade of P or NGP or better in each topic, according to the Bachelor of Science program of study. The program of study for the specialisation is detailed below:

No more than 45 units of First Year level topics may be included in the 108 units for the degree. Topics designated ''any year'' or with no year level specified are regarded as First Year level topics.

Elective topics to complete 144 units may be selected from any offered within the University or, with approval from the College of Science and Engineering, from outside the University, provided any course and prerequisite requirements are met.

Not all topics are necessarily available in a given year.

Upon completion of at least 103.5 units and with a GPA of 5 or more in the last 36 units of study, students may commence the Fourth Year Honours program. Students who do not meet the GPA requirement will exit with the Bachelor of Science (Energy and Advanced Materials) on completion of 108 units.

Students who have completed 108 units according to the first three years of the Program may choose to exit with the Bachelor of Science (Energy and Advanced Materials).

Specialisation - Energy and Advanced Materials - Year 1 topics

36 units comprising:

Core - Year 1 topics

MATH1121 Mathematics 1A (4.5 units) MATH1122 Mathematics 1B (4.5 units) PHYS1101 Fundamental Physics I (4.5 units) PHYS1102 Fundamental Physics II (4.5 units) ENGR1722 Engineering Physics and Materials (4.5 units) STEM1001 Nature of STEM (4.5 units)

Elective - Year 1 topics

9 units of elective topics from across the University where entry requirements are met *

* Students without Year 12 Physics should undertake PHYS1701 Physics for the Modern World as their elective. Students without Year 12 Mathematics should undertake MATH1701Mathematics Fundamentals A as their elective topic.

Specialisation - Energy and Advanced Materials - Year 2 topics

36 units comprising:

Core - Year 2 topics

ENGR2711 Engineering Mathematics (4.5 units) ENGR2722 Analysis of Engineering Systems (4.5 units) ENGR2812 Engineering Materials 2 (4.5 units) PHYS2701 Quantum Concepts (4.5 units) PHYS2702 Classical Physics (4.5 units) PHYS2712 Thermodynamics and Energy Systems (4.5 units)

Elective - Year 2 topics

9 units of elective topics from across the University where entry requirements are met.

Specialisation - Energy and Advanced Materials - Year 3 topics

36 units comprising:

Core - Year 3 topics

ENGR2861 Electromagnetics and Electromagnetic Waves (4.5 units) MATH3711 Complex Analysis (4.5 units) MATH3712 Partial Differential Equations (4.5 units) PHYS3701 Nuclear and Statistical Physics (4.5 units) PHYS3702 Solid State Physics and Optoelectronics (4.5 units) PHYS3711 Quantum Physics (4.5 units)

Elective - Year 3 topics

9 units of elective topics from across the University where entry requirements are met##

##Students are encouraged to enrol in STEM3001 Science Connect (4.5 units) as a third-year elective.

Specialisation - Energy and Advanced Materials - Year 4 topics

36 units comprising:

Core - Year 4 topics

CPES7700A Honours Research Project (4/5/22.5 units) CPES7700B Honours Research Project (4/5/22.5 units) CPES7700C Honours Research Project (4/5/22.5 units) CPES7700D Honours Research Project (4/5/22.5 units) CPES7700E Honours Research Project (4/5/22.5 units)

Plus

CPES7711 Advanced Techniques in Chemical and Physical Science (4.5 units) CPES7721 Advanced Chemical and Physical Science (4.5 units) STEM7001 Honours Research Methods (4.5 units)

Combined degrees

The Bachelor of Science (Honours) (Energy and Advanced Materials) 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 SACE Stage 2 Physics and Specialist Mathematics or Mathematical Methods or the equivalent is assumed.

Students without these requirements will need to pick up additional introductory topics and therefore completion in the standard duration may not be guaranteed and will be dependent upon the introductory topics required.