Associate Degrees in Biomedical Engineering

Modern advances in technology have impacted every industry, none more so than healthcare. Due to advances in biomedical engineering, medical practitioners are now able to test and treat health problems in ways never before imagined. The field of biomedical engineering involves the application of the mathematics, life sciences, and engineering principles to solve problems in medicine, healthcare, biology, and other fields. An associate degree in biomedical engineering teaches you the fundamentals of how to develop solutions to prevent, diagnose, and threat disease, to rehabilitate patients, and improve overall health. An associate degree in biomedical engineering is an introductory degree, yet it covers everything from ultrasound, MRI and other medical imaging techniques, the engineering of artificial hips and knees, engineered organisms for chemical and pharmaceutical manufacturing, pacemakers, dialysis machines, and diagnostic equipment. If you want to pursue a career in biomedical engineering, you'll probably need an advanced degree. But an associate degree in biomedical engineering is a good place to start.

Associate Degree in Biomedical Engineering Success Factors

Earning an associate degree in biomedical engineering requires that you enjoy problem solving, have strong written and verbal communications skills, are typically proficient in math and science, are commonly detail-oriented, and display strong perseverance and patience.

Associate Degree in Biomedical Engineering Curriculum

The courses you take while earning an associate degree in biomedical engineering include biology, computer science, math, physics, chemistry, biology, computer science, communications, as well as chemical, electrical, and mechanical engineering.

Biomedical Engineering Jobs

An associate degree in biomedical engineering will only qualify you for entry-level jobs in the field. To become a biomedical engineer, you'll need to pursue an advanced degree. The good news is, biomedical engineering positions are growing across the country. Biomedical engineers work alongside medical practitioners, developing new medical techniques, medical devices, and instrumentation for manufacturing companies. Most biomedical engineering graduates work in manufacturing industries, such as medical instrument development, pharmaceutical manufacturing, and health care supply. Many other associate degree in biomedical engineering graduates work for government agencies, hospitals, or as independent contractors or consultants.