Biomedical Engineering
The Bachelor of Science in Biomedical Engineering at the University of Michigan provides a comprehensive program for students interested in applying engineering principles to healthcare, medical devices, and biological systems. The curriculum emphasizes mechanics, electronics, biomaterials, computational modeling, and biological sciences, preparing students to design, develop, and evaluate medical technologies. Students engage in laboratory research, applied projects, and interdisciplinary collaboration, developing skills necessary to solve complex biomedical problems, optimize medical devices, and enhance patient care. This program cultivates both engineering proficiency and biomedical expertise, equipping graduates for careers in healthcare innovation, medical research, and technology development.
Learners explore interdisciplinary connections between engineering, biology, physiology, and computational modeling. The curriculum offers opportunities for laboratory experiments, design projects, and collaborative studies, allowing students to create medical devices, simulate biological processes, and analyze healthcare systems. Through mentorship, hands on laboratory experience, and applied engineering projects, students refine problem solving, technical design, and critical thinking skills. With a focus on applied biomedical engineering and innovative research, the program prepares graduates to contribute to medical technology, healthcare solutions, and interdisciplinary engineering applications.
Key information
Key Facts
- Program Title: Biomedical Engineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 01 February 2026
- Location: University of Michigan, United States
- Field of Study: Bio & Biomedical Engineering
- Language of Instruction: English
Program Structure
Year 1 - Foundations in Biomedical Engineering
• Introduction to Biomedical Engineering
• General Chemistry and Biology
• Calculus and Linear Algebra
• Physics for Engineers
Year 2 - Core Engineering and Biological Sciences
• Biomaterials and Tissue Engineering
• Circuit Analysis and Electronics
• Physiology for Engineers
• Computational Methods in Biomedical Research
Year 3 - Applied Biomedical Engineering
• Medical Device Design
• Biomechanics and Biomechanical Analysis
• Experimental Techniques in Biomedical Research
• Elective Modules in Specialized Topics
Year 4 - Capstone and Professional Integration
• Senior Design Project / Thesis
• Seminar in Biomedical Engineering
• Internship in Healthcare or Industry
• Professional Skills and Portfolio Development
Career Opportunities
Graduates of this program acquire advanced engineering, analytical, and research skills that prepare them for careers in medical device development, biotechnology, healthcare technology, research laboratories, and clinical engineering. They develop expertise in problem solving, biomedical systems analysis, and applied design, enabling them to create innovative solutions for healthcare challenges and improve patient outcomes. The program also prepares graduates for roles in academic research, medical technology companies, and healthcare institutions, equipping them to apply evidence based engineering practices in professional and societal contexts. Graduates leave ready to contribute to medical innovation, technology development, and applied biomedical research.
Why Choose This Program
This program is ideal for students seeking a curriculum that integrates applied biomedical engineering with research, design projects, and interdisciplinary collaboration, offering mentorship, laboratory experience, and hands on learning. Learners benefit from faculty expertise, applied engineering projects, and interdisciplinary coursework that strengthen technical, analytical, and problem solving skills. The curriculum emphasizes biomedical applications, experimental research, and engineering design, preparing graduates to develop medical technologies, conduct innovative research, and contribute to healthcare solutions. With its focus on engineering proficiency and biomedical expertise, the program provides a dynamic academic environment for students aspiring to careers in biomedical engineering, healthcare technology, and research innovation.
Contact Information
For further information, please contact the admissions office at:
Phone: 734-764-8129
Email: rackadmis@umich.edu
Address: Graduate Admissions Office, University of Michigan, Ann Arbor, MI 48109, USA
