Applicants need to have achieved the required score in a qualification equivalent to the completion of 13 years of schooling in Australia.
In order to succeed in your chosen course, it is assumed you have completed relevant subjects in your senior high school studies or other relevant qualifications. This is particularly important for degrees which have a strong basis in Mathematics or Science.
IELTS Academic: Overall Score 6.0, Reading 6.0, Writing 6.0, Listening 6.0, Speaking 6.0
TOEFL (Internet-based): Overall Score 70, Reading 18, Writing18, Listening 17, Speaking 17
Biomedical Engineering is a multi-disciplinary field that enables engineers to combine engineering principles with biological and medical sciences. Developments in biomedical engineering provide vital skills and knowledge to enable change to the national health system and improve people’s lives, for example, developments in imaging, instrumentation, robotics, scaffolding, materials engineering, computer science and prosthetics. Students will study areas related to mechanical, electrical, artificial intelligence (e.g. evolutionary computation, neural network, fuzzy logic, machine learning) and aspects of modern biomedical systems. Graduates will develop a solid understanding of critical issues involved in developing biomedical systems in a global economy and make significant technological contributions to biomedical systems, both in Australia and abroad.
This degree
You will study a common first year allowing you to learn more about engineering and its different fields before deciding which discipline to study. The common first year provides you with sound fundamentals in mathematics, statistics, physics, chemistry, computing, engineering science and communication, mechanics, materials and fluids. You then focus on your chosen major study from second year. Your degree includes a 12-week hands-on industry placement. You may gain credit for relevant work experience, either in Australia or overseas, by participating in our Professional Options Program.
Engineers work in a variety of industries, for example: construction, mining, resources, aeronautical, electronics, engineering management, telecommunications, power generation and distribution, renewable energy, aerospace, water resource management, robotics and manufacturing, railroad and shipbuilding.
What you will study
As an engineering student at UOW you will have access to fully-equipped laboratories and the latest computer-aided software that is used in modern industrial workplaces. Our lecturers encourage you to approach them and get involved in industry projects and learning opportunities so you get the most out of your university education.Our engineering students are trained through practical learning experiences including:
Laboratory experiments
Problem based learning
Computer simulations
Teamwork assignments
Industrial case studies
Project management
Site visits to industry
After completing the common first year you will study specific subjects in the areas of:
Anatomy and Physiology, Biomedical Instrumentation and Design, Biomedical Physics, Sensors and Actuators, Biomechanical Basis for Human Movement, Mechanical Design of Biomedical Devices, Biomaterials and Tissue Engineering, Artificial Organs and Implants, Ethics and Practices, among others.
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Biomedical Engineer
Computer Architect
Computer Systems Engineer
Civil Engineer
Construction Manager
Electronics Engineer
Electrical Engineer
Environmental Engineer
Geotechnical Engineer
Materials Engineer
Mechanical Engineer
Metallurgist
Mining Engineer
Network Engineer
Production Engineer
Security Engineer
Software Engineer
Structural Engineer
Systems Analyst
Telecommunications Engineer
Transport Engineer
Water Quality Manager
OSHC: 530 ($) AUD per year
