Homeβ€ΊThe University of Kentβ€ΊBEng Biomedical Engineering including a Foundation Year

BEng Biomedical Engineering including a Foundation Year

The University of Kent
Full-time4 YearsSubject: Engineering and Technology
Course Score
A /82
Graduate Salary
Β£35,000 (3yr)
Satisfaction
84%
Degree Completion
90%
Professional Jobs
65%
Meaningful Work
85%

About this course

Biomedical engineering applies the principles of engineering to biology and medicine, designing the devices, systems, and technologies that modern healthcare depends on. From diagnostic imaging machines and prosthetic limbs to biosensors and drug delivery systems, the work of biomedical engineers sits at the point where clinical need meets technical innovation. It is a field that demands both scientific depth and the ability to work across disciplinary boundaries, collaborating with clinicians, biologists, and software specialists to build solutions that function reliably in complex, real-world environments. This four-year programme at the University of Kent is designed for students who do not yet meet the entry requirements for direct first-year admission, providing a first year that builds the mathematical, scientific, and engineering foundations you need before you begin the main degree. Once in the programme proper you will study engineering fundamentals alongside biology and physiology, gradually building expertise in areas such as sensors and signal processing, biomechanics, medical imaging, and systems design for medical applications. The course emphasises the ability to develop integrated solutions to complex problems, and you will learn to think about engineering challenges not in isolation but as part of broader biological and clinical systems. Practical and project-based work is central to the degree. You will gain experience of designing, testing, and evaluating systems in laboratory settings, developing the kind of hands-on engineering judgement that employers and research environments need. The programme prepares engineers who can contribute meaningfully to both commercial medical device development and biology research contexts. Graduates from biomedical engineering go on to careers in the medical device industry, healthcare technology, clinical engineering, research and development, and regulatory affairs. Some move into further study at postgraduate level, specialising in areas such as tissue engineering, neural engineering, or medical robotics. The analytical and problem-solving skills the degree builds also open doors in broader engineering and technology sectors.

Syllabus & Modules

Typical curriculum
β–ΆYear 1 Modules
4 items
Engineering Mathematics
Core
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Mechanics & Thermodynamics
Core
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Engineering Design
Core
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Materials Science
Core
View Module Details β†’
β–ΆYear 2 Modules
4 items
β–ΆYear 3 Modules
4 items
β–ΆYear 4 Modules
2 items

Student Satisfaction

National Student Survey - 10 respondents (62% response rate)

73%
Teaching Quality
71%
Assessment & Feedback
64%
Academic Support
82%
Organisation
97%
Learning Resources
67%
Student Voice

Tuition FeesVerified

Published annual tuition cost at The University of Kent.

Β£9,535
Per academic year (UK Home)
πŸ’°

Government Student Loan

Eligible UK students do not pay upfront. Covered by SFE tuition fee loans.

Will I Get In?

120 UCAS Pts
Admissions Probability
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Predicted Grades

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Entry Qualifications

A-level
100%

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