BEng Hons Aerospace Engineering
The BEng Hons Aerospace Engineering program at the University of Surrey is designe...
Guilford - UK
INTAKE: September
The BEng Hons Biomedical Engineering program at the University of Surrey combines elements of engineering, biology, and medical sciences to develop innovative solutions for healthcare. The program focuses on understanding the complex interaction between engineering principles and the human body, and how to apply this knowledge to improve healthcare technologies.
Core Engineering and Biomedical Science: The program starts with a solid foundation in core engineering subjects such as mathematics, physics, and mechanics. Students also study biomedical science courses that provide a deep understanding of human anatomy, physiology, and medical technologies.
Specialization in Biomedical Engineering: As students progress, they have the opportunity to specialize in various areas of biomedical engineering, such as medical imaging, biomechanics, biomaterials, and medical device design. This specialization allows students to develop expertise in specific aspects of biomedical engineering.
Hands-on Practical Experience: The program emphasizes practical learning and provides students with opportunities to work with state-of-the-art biomedical equipment and technologies. Through laboratory sessions, projects, and design exercises, students gain hands-on experience in applying engineering principles to solve real-world biomedical challenges.
Industry Collaboration: The University of Surrey has strong partnerships with leading healthcare organizations and industry players. These collaborations provide students with exposure to industry practices, guest lectures from professionals, and opportunities for internships or industry projects. Students can network with professionals and gain insights into the latest advancements in biomedical engineering.
Research Opportunities: The program encourages research participation, allowing students to work on cutting-edge projects alongside faculty members. This exposure to research stimulates critical thinking, problem-solving skills, and fosters innovation in the biomedical field.
Professional Skills Development: The program focuses on developing students' professional skills, including teamwork, communication, project management, and ethical considerations in healthcare. These skills are essential for successful careers in the biomedical engineering industry.
Guilford - UK
IELTS 6
£ 23800
Undergraduate Entry Requirements:
Students must provide:
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
The University of Surrey offers a range of scholarships and financial aid options to support students in their academic journey. These scholarships are designed to recognize excellence, provide access to education, and support students in achieving their educational goals.
Graduates of the BEng Hons Biomedical Engineering program have excellent career prospects in various sectors.
Medical Device Industry: Graduates can work in the development, design, and manufacturing of medical devices and equipment. They contribute to the creation of innovative technologies, ensuring their safety, effectiveness, and compliance with regulatory standards.
Biotechnology and Pharmaceutical Companies: Graduates can pursue careers in biotechnology and pharmaceutical companies, where they contribute to the development of advanced therapies, drug delivery systems, and diagnostic tools.
Healthcare Institutions: Graduates can work in hospitals, clinics, and healthcare facilities, supporting the implementation and maintenance of medical equipment, providing technical assistance, and contributing to the development of healthcare technologies.
Research and Development: Graduates can engage in research and development activities, working in academic institutions, research organizations, or industry research departments. They contribute to advancing biomedical engineering knowledge, developing new technologies, and improving healthcare outcomes.
Regulatory and Compliance: Graduates can work in regulatory agencies or consultancies, ensuring that biomedical products and technologies comply with regulatory standards, quality control measures, and ethical considerations.