Biomedical engineering programs are for students interested in studying the engineering principles used to design and develop medical equipment, such as prostheses and implants, or create software programs to test new drug therapies and run diagnostic equipment. Prospective graduate students will need a bachelor's degree in engineering, though some schools also admit applicants with a degree in such fields as biology or chemistry. During this time, students gain a specialized understanding of the field and can concentrate on such areas as imaging, biomaterials and biomechanics.
Biomedical engineering program specializations include imaging, biomaterials, biomechanics. It takes two years to complete the program. A thesis is required for some programs.
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- Aeronautical and Astronautical Engineering
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Master's Degree in Biomedical Engineering
A knowledge of both the life sciences and engineering is required for success in a biomedical engineering program, and prospective students could be required to complete remedial programs and courses to bolster their knowledge in either field. To earn a master's degree in biomedical engineering, students are required to complete a combination of math, life science and biomedical engineering courses that can include studies in the following:
- Applied mathematics
- Biomedical imaging
- Molecular biology
- Medical instrumentation
Employment Outlook and Salary Info
According to the U.S. Bureau of Labor Statistics, biomedical engineers could see employment opportunities grow 23% between 2014 and 2024. During this 10-year period, about 5,100 new positions are expected to be added to the economy, thanks in large part to the demand for biomedical technologies among a growing elderly population.
In May of 2015, the median salary for biomedical engineers was $86,220. The lowest 10% earned an annual income of $51,480 or less, while the highest 10% earned $139,520 or more per year.
Continuing Education Information
Many biomedical engineering master's degree programs prepare graduates to continue their education in Ph.D. programs. Students who complete this training can pursue research or teaching careers with a university.
A master of science or a master of engineering will prepare a student for a career in biomedical engineering that focuses on topics such as biomedical imaging, molecular biology and biomechanics. Students have the chance to go on to earn more education to pursue more advanced careers.