A bachelor's-level program provides students with a basic understanding of biology, chemistry, physics, and mathematics. Students also delve into classroom and laboratory study of human biomechanics and medical systems.
- Program Concentrations: Biomechanics, biomaterials or bioinstrumentation
- Practical Experience: Classroom and Laboratory study
Bachelors in Biomedical Engineering
The courses in a bachelor's degree in biomedical engineering are heavily rooted in biology, chemistry and other physical sciences. Students are also exposed to lab equipment and computer applications used in the biomedical industry. Common courses include:
- Biological science
- General chemistry
- Biomedical engineering and signal processing
- Ethics and healthcare
Continuing Education Information
Students interested in furthering their studies in biomedical engineering can enroll in either a Master of Science in Biomedical Engineering or a Doctor of Philosophy (Ph.D.) in Biomedical Engineering degree program. Graduate programs provide students with the advanced training and knowledge necessary to advance research in the fields of biomechanics and bioengineering. Graduates of a bachelor's degree program in biomedical engineering can also enroll in degree programs in medicine to become physicians and medical practitioners.
Employment Outlook and Salary Info
Graduates of an undergraduate program in biomedical engineering have several career options available in medical, pharmaceutical, and scientific research industries. The projected growth for biomedical engineers, according to the U.S. Bureau of Labor Statistics (BLS), was much faster than the national average at 27% from 2012-2022 (www.bls.gov). The median annual wages for biomedical engineers, in May 2012, were $86,950.