Biomedical Engineering School

What was once not long ago considered science fiction has now become a reality in so much of our modern world. One such area is where biology and technology have converged to create cutting edge solutions to contemporary health problems. This field is known as biomedical engineering, and it involves the application of the mathematics, life sciences, and engineering principles to solve problems in medicine, healthcare, biology, and other fields. A biomedical engineering school teaches you how to develop solutions to prevent, diagnose, and threat disease, to rehabilitate patients, and improve overall health. A biomedical engineering school 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. In short, a biomedical engineering school is designed to teach you all the major aspects of a career in biomedical engineering. So take a moment now and find the right biomedical engineering school for you.

Biomedical Engineering School Success Factors

Success in a biomedical engineering school and a biomedical engineering profession means 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.

Biomedical Engineering School Curriculum

A biomedical engineering school curriculum is designed to prepare you for your specialization within biomedical engineering. A biomedical engineering school curriculum typically includes courses in math, physics, chemistry, biology, computer science, communications, as well as chemical, electrical, and mechanical engineering.

Biomedical Engineering School Degrees

Biomedical engineering school degrees are offered at the undergraduate, master's and Ph.D. levels. One-third of graduates obtaining a Bachelor's of Science in Biomedical Engineering proceed to medical school, a third proceed to graduate school, and a third go straight into the workforce. Although many engineering specialties do not require a graduate degree, a master's degree from a biomedical engineering school is preferred for entry-level jobs in biomedical engineering. Doctorate degrees from a biomedical engineering school are more typical for those who want to advance into research or academia.

Biomedical Engineering Jobs

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 school graduates work in manufacturing industries, such as medical instrument development, pharmaceutical manufacturing, and health care supply. Many other biomedical engineering school graduates work for government agencies, hospitals, or as independent contractors or consultants.