Bachelor of Engineering Honours (Biomedical Engineering) and Bachelor of Science (Health)

5 Years On Campus Bachelors Program

University of Sydney

Program Overview

Bachelor of Engineering (Honours) in Biomedical Engineering + Bachelor of Science (Health)

University of Sydney

If you’re the kind of person who loves technology but is equally driven by helping people live healthier lives, this combined degree is designed for you. It lets you bring together the precision of engineering with a deep understanding of human health and biology — so you can create real solutions that make a meaningful impact, from medical devices to life-changing diagnostic tools.

Curriculum Structure

Year 1

Your first year builds a strong foundation. You’ll dive into core maths and engineering skills while also exploring biology and the structure of the human body. Early units like Biomedical Engineering 1A and 1B introduce you to medical imaging, biomaterials, sensors and other technologies that sit right at the intersection of engineering and healthcare. It’s the year where you begin to understand how the human body and engineered systems connect.

Year 2

In second year, things get more hands-on and applied. You’ll explore units like Anatomy and Physiology for Engineers and Introduction to Bioelectronics, learning how body systems work and how engineering technology can interface with them. You’ll also start working with computational and signal-analysis tools in Computational Analysis for Biomedical Signals, building the skills needed to interpret real biological data.

Year 3

By third year, you’re moving into specialised areas that let you shape your interests. Through units such as Biomedical Engineering 2 and electives like Biomaterials or Tissue Engineering, you’ll look closely at how devices are designed and how materials behave inside the human body. You’ll begin exploring real-world medical challenges — from prosthetics to diagnostic tools and implant design.

Year 4 (Final Year)

In your final year, everything comes together in a major capstone or research-based project. You might design a medical device, work on tissue-engineering innovations, or develop a practical biomedical solution to a real health problem. It’s a chance to apply everything you’ve learned and show what kind of engineer you’re becoming.

Focus Areas

• Biomedical device design
• Biomaterials & tissue engineering
• Bioelectronics and health systems

What You’ll Graduate With

By the end of the program, you’ll understand human biology and health deeply and be able to design, analyse, and build biomedical technologies that solve real problems. You’ll develop strong engineering design and problem-solving skills in medical contexts — a combination that’s valued around the world.

Professional Recognition

The engineering qualification meets global professional standards under the Washington Accord, which means your degree is internationally recognised — giving you the flexibility to work in medical technology and engineering roles worldwide.

Reputation & Employability

The University of Sydney is highly respected for engineering and technology, and graduates from this program are in demand across healthcare technology, medical device innovation, research, and industry roles. It’s a degree that opens doors, whether you want to build life-changing tools, work alongside clinicians, or be part of the next breakthrough in health technology.

Experiential Learning (Research, Projects, Internships etc.)

That combined program — Bachelor of Engineering Honours (Biomedical Engineering) and Bachelor of Science (Health) at University of Sydney — is a really strong pick if you want to build genuine, career-ready skills by blending engineering and health science with hands-on experience. From Day 1 you learn engineering fundamentals (materials, mechanics, maths, computation) and how these principles apply to human biology and health. As you advance, you don’t just study theory — you start doing biomedical design, analysing biomedical signals, and exploring bioelectronics and anatomy for engineers, giving you a deeply interdisciplinary toolkit that’s directly relevant to real-world health-tech and medical systems. By the end of the degree you’ll have had opportunities to work on real biomedical problems, and to graduate with both technical engineering and health-science knowledge under your belt.

Here are some of the concrete experiential-learning opportunities built into this program:

Core engineering units like materials science and mechanics — giving you the baseline engineering skills that you can then apply to medical-device design.
Biomedical-specific units such as “Anatomy and Physiology for Engineers,” “Introduction to Bioelectronics,” “Biomedical Physics,” and “Computational Analysis for Biomedical Signals” — you get to understand human biology plus how to model and work with biomedical signals or devices.
The chance to pick electives and electives specialisations — tailoring your learning toward, say, bioelectronics, tissue/orthopaedic engineering, biomaterials, or computational biomedical work.
As part of the biomedical engineering stream: “Industry/Enterprise units” — meaning you’ll engage with real industry- or enterprise-oriented work, bridging academic learning with real-world biomedical design or product development.
Integrated health-science coursework through the Health component — so you don’t just build devices, you also understand health systems, human physiology and broader health contexts.
By combining engineering and health science, the program equips you to work effectively with medical professionals and in medical-technology domains — making you ready for careers in hospitals, medical device companies, regulatory bodies, research institutes, or health-tech development.

Progression & Future Opportunities

If you choose to study the Bachelor of Engineering (Honours) — Biomedical Engineering + Bachelor of Science (Health) at University of Sydney, you’ll be setting yourself up for a meaningful, versatile career combining engineering, health, and real-world impact. Graduates from this degree often go on to roles such as biomedical engineer, clinical engineer, medical device designer, or healthcare technology consultant — helping design medical devices, work on diagnostics, or contribute to improving healthcare services.

Here’s what this means for you:

The program equips you with strong scientific, mathematical and technical skills plus a deep understanding of human biology and health systems — combining engineering with health science. You’ll learn to design biomedical systems, tackle complex design problems, work on biomaterials, bionics, medical imaging or rehabilitation technology. The training ensures you emerge able to collaborate across disciplines — engineering, biology, medicine — which makes you extremely versatile in job roles.
The University has a strong reputation overall, which adds value: being part of Sydney means you benefit from its academic standing and employer recognition — which helps when you apply for jobs or internships, locally or globally.
During the degree there are built-in opportunities for real-world exposure — through projects, lab work, and industry-relevant biomedical design — giving you practical experience that employers value. This kind of hands-on exposure often improves employability, especially in a field as applied as biomedical engineering.
With the health + engineering combination, you have the flexibility to work in diverse settings — from hospitals and clinics, to medical device firms, to research labs, to regulatory or health-policy environments — which broadens your long-term career options.

Further Academic Progression:
After finishing this double degree, if you want to deepen your expertise you could consider postgraduate study — for example a master’s in biomedical engineering, medical technology, or research-oriented masters focusing on bioengineering, tissue engineering, medical device development, or health systems innovation. That path could lead you into advanced research roles, product development, or even clinical-technology leadership positions.