UK,England
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UK, England
Type: University
Location Type: Urban
Founded: 1992
Total Students: 15,500 +
Int. Students: 4,100 +
Main Campus Address
Cyprus Pl, London E6, United Kingdom
Biomedical engineering is an inter-disciplinary and exciting subject that covers the science and engineering responsible for many of the latest advances in medicine.
Our course encompasses the design and development of artificial medical implants such as hip joints, heart valves and prosthetic limbs, as well as the development of medical technologies including surgical robots, diagnostic tools and rehabilitation equipment.
Becoming a biomedical engineer promises an exciting career, and our course are designed to provide excellent training in all these areas.
WHAT YOU'LL LEARN
Throughout the course you'll be encouraged to apply your skills to a range of practical problems through a mental wealth module which is designed to provide guidance to become an independent learner, effectively reflect and take necessary actions for professional success.
In your first year, you will gain a thorough and 'hands-on' grounding in the principles and practises of engineering with a healthcare focus, including Fundamentals of Human Anatomy and Physiology, Engineering Principles, Applied Mathematics & Computing, Engineering Materials, and Thermofluids.
In the second year, students begin to specialise in Biomedical Engineering, by studying Functional Anatomy and Biomechanics of Human Movement, while also studying Engineering Design and Analysis, and Applied Electronics. You'll be encouraged and supported to find work experience to enhance your practical skills, and we'll help you to find a work placement if you choose to work for a year in the industry during your course. In the final year you will expand your understanding of biomedical engineering even further by developing a solution for a real-world medical need and acquire new skills and readiness for the workplace through a biomedical engineering project. In addition, you will be taught advanced subject that enhances the variety of biomedical engineering applications, namely, Biofluid Mechanics & CFD, Applied Physiology, and Design of Mechatronics Systems.
The programme will also offer you an optional placement year, enabling you to experience the real world and effectively connect your university experience with it.
We consistently review our courses to ensure we are up to date with industry changes and requirements from our graduates. As a result, our modules are subject to change.
4-Year Bachelor's Degree
7 Days
Full-Time
48 Months
Intake Month/Year | Intake Status | |
---|---|---|
sep 2025 | Open |
*Note: The fee is approximate and is subject to change
*Note: The fee is approximate and is subject to change
The living costs include the total expenses per month, covering accommodation, public transportation, utilities (electricity, internet), books and groceries.
Check program website for more information about funding options.
Minimum Level of Education Required: To be accepted for this program, students must have Standard XII Higher Secondary Certificate.
YOUR FUTURE CAREER
The interface between engineering and healthcare is a growing area of industrial need with a wide range of career options with global opportunities for graduates. Combining science, medicine and technology, biomedical engineers are the natural figures in designing and manufacturing practices, commercial development as well as in technology management for the healthcare sector.
You will therefore become a sought-after graduate: biomedical engineering is a highly valued discipline with some of the world's leading companies.
Biomedical engineers can have varied careers in many environments, which include: hospitals, private and public research facilities, medical institutions, universities and government agencies.
You could become involved in the design of medical devices, modelling and simulation of human physiology and anatomy, support hospitals in clinical and financial governance of existing medical equipment, or in the assessment of new technologies. Artificial organs, computer-simulated or image-guided surgery and robot assisted surgery, orthopaedic implants, medical imaging, assistive technologies, mobile and e-health, are only some of the services that biomedical engineers can deliver, ensuring rich career prospects.
There are various options through which a student can get a post study work visa in the UK.
Tier 1 Graduate Entrepreneur Visa for the graduates with a genuine and credible business idea.
Tier 2 (General) is the leading immigration visa to work in the UK.
Tier 4 Doctorate Extension Scheme is for students who have completed their Ph.D. and is valid for 12 months for them to work, look for work or set up a business.
Tier 5 Youth Mobility is for individuals of certain countries like Australia, Canada, Japan, Monaco, Hong Kong, South Korea, Taiwan, and New Zealand aged between 18 -30 who wish to move to the UK.
Tier 5 GAE is for individuals who want to come to the UK for work experience, training, research or a fellowship.
UK Ancestry is for individuals who are a citizen of a commonwealth and plan to work in the UK and have a grandparent who was born in the UK.
Program Level: Bachelor's Degree
Duration: 60 months
Tuition Fee: CAD 15,560
English Requirement: IELTS TOEFL PTE
Work Permit:
Program Level: 3-Year Bachelor's Degree
Duration: 36 months
Tuition Fee: CAD 15,560
English Requirement: IELTS
Work Permit:
Program Level: 4-Year Bachelor's Degree
Duration: 48 months
Tuition Fee: CAD 15,560
English Requirement: IELTS
Work Permit:
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