At UON we train engineers capable of solving the greatest global challenges. As an electrical engineer you can help develop precision agriculture technology to increase food production efficiency, refine aircraft electrical systems and even build smart grid systems to help manage alternative energy resources. Or, like our team of researchers, you could develop medical technology such as the artificial pancreas.
What is electrical engineering? Electrical engineering involves fields such as electronics, computer systems, telecommunications, bioengineering, control, robotics and electrical power engineering. Electrical engineers design and build systems and machines that generate, transmit, measure, control and use electrical energy essential to modern life.
Why combine engineering with physics? Complete these two bachelor degrees in just five years - deepen your technical skills with advanced physics courses. Physics is fundamental to engineering and a deeper knowledge of this science can help you solve more complex engineering problems. This advanced theoretical background will also open up opportunities in research and development.
Why study with us?
- Real-world insights: Connect with industry through projects, guest lecturers, and mentoring.
- Be workplace ready: Graduates rated us no.1 in NSW for workplace ready skills. In 2016, 93% of graduates were employed within 4 months.
- Travel the world with international recognition through Engineers Australia. You can even start while you're studying with international exchanges and scholarships available.
- We're No.1 in Australia for overall quality of the educational experience.
- Fast-Track Masters - advance your career and gain a Master of Professional Engineering in just 1 year on top of your Bachelor of Engineering degree.
What will you study?
Build critical technical and engineering skills through courses in:
- engineering mathematics
- electric machines and power systems
- electrical engineering design
- automatic control
- analog and digital communications
- computer engineering
- electric energy systems
- procedural programming
- signals and systems
Connect with industry through guest lectures and interdisciplinary projects solving real world problems. Gain invaluable practical experience through your industry placement.
Become job-ready through our professional practice courses. You'll learn to tackle 'wicked problems' and develop essential workplace skills in finance, project management, sustainability, communication and entrepreneurism.
Develop your physics skills in:
- mathematical discovery
- statistics for the sciences
- modern optics
- atomic and nuclear physics
- classical mechanics and special relativity
- solid state and nanoscience
- optical fibre technology
Electrical engineers are employed in utilities, industry, manufacturing, consulting services and electronic design and development. Graduates might focus on electronics engineering. They could specialise in automation and control engineering, or they may work in robotic engineering or power generation and distribution. Average starting salaries for engineers are great - more than $80,000 per annum.
Electrical engineering is flexible and diverse. You may prefer hands-on fieldwork, design and development, or a leadership role managing people and projects. Typical positions include:
- telecommunications equipment designer
- electrical design engineer
- automatic systems designer
- robotics engineer
- biomedical instrumentation designer
- renewable energy systems engineer
Remarkably, engineering is the most commonly held degree among the highest performing Fortune 500 CEOs - the CEOs of companies such as Google, Microsoft, Amazon and Tesla Motors are all engineers.