The possibilities a biomedical engineer education offers are just as diverse as the career opportunities in this field. Engineering in Medicine & Biology succinctly observes that it is easier to list what biomedical engineers do not do because the field is so diverse. Those interested in a biomedical engineering education use biology, science, mathematics, and medicine creatively and expertly. Paramount in any education in biomedical engineering is engineering. A foundation of knowledge in electrical, chemical, and mechanical engineering is vital in a biomedical engineering education. Individuals ready to take control and create rather than take orders and obey are crucial skills for any biomedical engineering education, but there is always other preparation recommendations in this dynamic discipline.
How to Prepare for a Biomedical Engineering Education
The better an individual is primed to further an education in biomedical engineering, the more that individual will achieve in a higher education program. High school students should choose an assortment of courses that include at least one year of chemistry, physics, and biology. Advanced science courses are strongly recommended. Other essential clasess include the following:
- High school algebra
- Advanced algebra
These courses may appear foreboding but remember it is easier to take them at a high school level initially rather than trying to study these subjects in college for the first time. Calculus is also suggested for students interested in biomedical engineering programs. Students seeking an advantage over others are recommended to study computer programming, communications, and mechanical or drafting engineering in high school as well.
What to Study in a Biomedical Engineering Program
Advisors and career counselors are instrumental in helping an individual select the optimal schedule for a biomedical engineering education. Because biomedical engineering incorporates so many subjects, a student should be well-versed in a multitude of areas. Design should always be considered in every course studied. These courses are requirements in most biomedical engineering programs:
- Organic and inorganic chemistry
- Instrumentation design and electronic circuits
- Signals and systems
- Thermodynamics and transport phenomenon
- Engineering design
- Statics and dynamics
Additional coursework for students will be necessary when studies are specialized. Advanced engineering and science courses are often taken when a student is specialization a biomedical engineering education. Higher education institutions also require students to complete general requirement courses like English, humanities, ethics, and technical writing.
How Long is a Biomedical Engineering Program?
Typically consisting of a minimum of four years of higher education instruction, most biomedical engineering programs are for a bachelor's degree. Graduates can work in an entry-level position with this degree. Graduate degrees supply more job opportunities at a higher position level. For those interested in research and development, a master's or doctoral degree affords more possiblities in academic, government, and industrial settings. Some choose to also pursue a graduate degree in business in order to privately work as a biomedical engineer.
A biomedical engineering education offers bountiful options. Students interested should be focused and accomodating so they can discover the perfect biomedical engineering specialization that sufficiently trains them for their career aspirations.
Engineering in Medicine & Biology
Bureau of Labor Statistics