As its name suggests, biomedical engineers combine biology, medicine, and engineering to make technological advances in fields related to health care. Students who wish to pursue this degree will learn how to develop and operate biomedical health systems, design artificial organs and prosthetics, and discover the impact machinery has on medical care. It should be noted that some colleges use “biomedical engineering” synonymously with “bioengineering,” though bioengineers can work in fields outside of medicine and human health.
The biomedical engineering major focuses heavily on sciences and mathematics, with courses such as: biochemistry, physics, genetics, mechanical engineering, and microbiology. Many biomed majors also work on a lab-based projects with subjects like cell and tissue engineering, vaccines, and genetics. Students in the major tend to be creative and curious, like a challenge, and enjoy problem solving.
Biomedical engineering has lead to revolutionary breakthroughs like ultrasounds and magnetic resonance imaging (MRI). After graduation, biomedical engineers can look forward to a vast array of careers in areas such as: bio-instrumentation, systems physiology, orthopedic engineering, biomaterials, medical imaging, and rehabilitation engineering. This growing field produces life-changing technologies, methods, and breakthroughs that can improve quality of life, assist with medical practices, and even save lives.
Biomedical Engineering fun fact: In 1993, five biomedical engineers in Scotland created the first functional bionic arm — the Edinburgh Modular Arm System.
Celebrities who studied Biomedical Engineering: Ashton Kutcher, actor.
The average starting salary for a graduate with a bachelor's degree in Bioengineering and Biomedical Engineering is $62,700