Further Information
| Entry information | |
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| Intake period | |
February and July |
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| Duration | |
4 years full-time (honours available) Many courses may be studied part-time, which will increase the time taken to complete the course. |
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| Prerequisites | |
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All courses at UWA: English Language Competence Bachelor of Engineering: WACE: Mathematics 3C/3D, plus at least two of Mathematics Specialist 3C/3D, Physics 3A/3B, and Chemistry 3A/3B. Calculus/Mathematics Specialist 3C/3D is strongly recommended for all engineering courses. *Please note: Students with only two of the three subjects will be required to complete either an intensive four-week bridging course before commencement of their first semester (Calculus) or an extra level-one unit during the first semester (Calculus, Introductory Physics, or Introductory Chemistry). Minimum TER (2009):
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| Degrees | |
Bachelor of Engineering |
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| Fees | |
| TISC Codes | |
Commonwealth-supported places
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| Links | |
| University Handbook |
Electrical and Electronic Engineering
The University of Western Australia offers a number of courses leading to a Bachelor of Engineering degree in Electrical and Electronic Engineering.
The course duration is four years and covers the following major fields:
- Communication Engineering
- Control Engineering
- Power Systems Engineering
- Electronic Engineering
Communication Engineering deals with the transfer of information of diverse kinds by the modulation, transmission and subsequent demodulation or reception of electrical, electromagnetic or optical signals. These signals may be digital or analogue and may be transmitted over cable, radio or optical fibre media. National and international communication networks; television and telecommunication; cable, microwave, satellite and optical communication are among the topics included.
Control Engineering deals with automatic means by which the performance of a process or plant is controlled or regulated from measurements of its own response. Feedback control of this kind, and its fundamental concepts, has very wide applications and implications. Control engineers need wide knowledge and the ability to work with specialists in other fields. This branch of engineers involves the marriage of electrical and mechanical systems.
Power Systems Engineering is a very large field of professional engineering practice in Australia and throughout the world. Every modern economy depends increasingly on electricity supply. Expansion of electricity supply throughout most of the Asian countries is now on a massive scale. The major field of expertise in this department is in all aspects of power generation, transmission, distribution and supply and especially computer-aided design and control of large integrated power network systems.
Level 1
All engineering students follow a common course in Level 1, allowing flexibility to select any engineering stream at the end of the level. The subjects include mathematics, engineering fundamentals and physics, plus electives from a variety of engineering streams.
Upper levels
The broad-based engineering education continues in Level 2 and professional specialisation takes place in the third and final levels.
During the Bachelor of Engineering, you will also complete at least 12 weeks full time (or equivalent part time) of professional work experience.
Career opportunities
Electronic Engineering equips graduates for careers in industries engaged in the development and application of electronic devices, circuits and systems. These include: - design and development of computer hardware - electronic circuit design and manufacture - very large scale integrated (VLSI) circuit design and application - computer aided design (CAD) - application specific integrated circuit (ASIC) design and manufacture - semiconductor devices and integrated circuit (IC) manufacture.
| Course enquiries | Admissions, application, and general enquiries to |
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Faculty Office |
Hackett Hall (M353) Phone (+61 8) 6488 2477 Email admissions@uwa.edu.au |
