Biotechnology has been around for hundreds of years. From farming to food production & storage, biotechnology has touched our lives in numerous helpful ways.
As child boomers age, there has been an increased demand for new medical procedures & equipment. As a result, biomedical engineering, a field that combines medicine with engineering & biology, is expected to grow in the next decade & beyond.
With an insight in to both medical & engineering fields, biomedical engineers work effectively in hospitals, research facilities, academia, government regulatory agencies or as consultants.
Biomechanics, which applies biomechanical engineering to biological or medical issues, utilizes scientific principles to produce new ways of keeping the body functional & healthy. These include the creation of synthetic organs & joints, as well as machines that control body functions, imaging systems like X-ray & ultrasound, & the laser systems used in corrective eye surgical procedure.
Because of these advances, the medical community has a better understanding of how sure organs & musculoskeletal systems function.
According to the U.S. Department of Labor, biomedical engineering is expected to grow faster than the average for all occupations through 2014. While a bachelor's in engineering is necessary, a graduate degree in engineering is also recommended for most entry-level bioengineering jobs. Lots of universities offer accredited engineering graduate programs.
Professional organizations, such as the American Society of Mechanical Engineers (ASME), can help students interested in pursuing biotechnology careers.
ASME promotes the interests of its members & keeps them informed of industry developments. Additionally, networking opportunities offered by the organization can help students find jobs & get on the right career track.
As child boomers age, there has been an increased demand for new medical procedures & equipment. As a result, biomedical engineering, a field that combines medicine with engineering & biology, is expected to grow in the next decade & beyond.
With an insight in to both medical & engineering fields, biomedical engineers work effectively in hospitals, research facilities, academia, government regulatory agencies or as consultants.
Biomechanics, which applies biomechanical engineering to biological or medical issues, utilizes scientific principles to produce new ways of keeping the body functional & healthy. These include the creation of synthetic organs & joints, as well as machines that control body functions, imaging systems like X-ray & ultrasound, & the laser systems used in corrective eye surgical procedure.
Because of these advances, the medical community has a better understanding of how sure organs & musculoskeletal systems function.
According to the U.S. Department of Labor, biomedical engineering is expected to grow faster than the average for all occupations through 2014. While a bachelor's in engineering is necessary, a graduate degree in engineering is also recommended for most entry-level bioengineering jobs. Lots of universities offer accredited engineering graduate programs.
Professional organizations, such as the American Society of Mechanical Engineers (ASME), can help students interested in pursuing biotechnology careers.
ASME promotes the interests of its members & keeps them informed of industry developments. Additionally, networking opportunities offered by the organization can help students find jobs & get on the right career track.
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