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Updated in [March 06th, 2023]

This course, So You Want to Be a Biomedical Engineer, provides an overview of the wildly popular and vast field of biomedical engineering. Students will learn about more than two dozen areas of focus and get a peek at some of the cool and exciting advances going on at top institutions. Through exercises, students will get to think like a biomedical engineer and experience the various areas to see which fits their interests and talents. Once students have a better sense of where they’d like to focus, educational and career advice will help show them how to get there. Topics covered include the thinking processes of pilots and baseball batters, an inside view of a beating heart, and developments in bionics, exoskeletons, and nanotechnology. Verified students are eligible to earn Continuing Education Units (CEUs) and Professional Development Hours (PDHs), valid toward continuing education requirements for many professional certifications.

[Applications]
After completing this course, students will have a better understanding of the various areas of focus within biomedical engineering and the career paths available to them. They will also have the opportunity to think like a biomedical engineer and gain insight into the advances being made in the field. Additionally, students will have access to educational and career advice to help them pursue their desired career path. Finally, verified students will be eligible to earn Continuing Education Units (CEUs) and Professional Development Hours (PDHs), valid toward continuing education requirements for many professional certifications.

[Career Paths]
Recommended Career Paths:
1. Biomedical Engineer: Biomedical engineers use engineering principles to design and develop medical equipment, such as prosthetics, artificial organs, and medical imaging systems. They also work on developing new treatments and therapies for diseases and medical conditions. This field is growing rapidly, with the Bureau of Labor Statistics predicting a 7% growth rate from 2019 to 2029.

2. Biomedical Scientist: Biomedical scientists use their knowledge of biology and medicine to conduct research and develop new treatments and therapies. They often work in laboratories, analyzing samples and conducting experiments. This field is also growing rapidly, with the Bureau of Labor Statistics predicting a 6% growth rate from 2019 to 2029.

3. Medical Device Engineer: Medical device engineers design and develop medical devices, such as pacemakers, artificial organs, and medical imaging systems. They also work on improving existing medical devices and developing new ones. This field is expected to grow at a rate of 5% from 2019 to 2029.

4. Clinical Engineer: Clinical engineers use their knowledge of engineering and medicine to develop and maintain medical equipment. They also work on improving existing medical equipment and developing new ones. This field is expected to grow at a rate of 4% from 2019 to 2029.

[Education Paths]
1. Bachelor of Science in Biomedical Engineering: A Bachelor of Science in Biomedical Engineering is a four-year degree program that focuses on the application of engineering principles to the medical field. Students learn about the design and development of medical devices, such as prosthetics, implants, and medical imaging systems. They also learn about the principles of physiology, anatomy, and biology, as well as the ethical and legal issues related to the medical field. This degree is becoming increasingly popular as the demand for biomedical engineers grows.

2. Master of Science in Biomedical Engineering: A Master of Science in Biomedical Engineering is a two-year degree program that focuses on the application of engineering principles to the medical field. Students learn about the design and development of medical devices, such as prosthetics, implants, and medical imaging systems. They also learn about the principles of physiology, anatomy, and biology, as well as the ethical and legal issues related to the medical field. This degree is becoming increasingly popular as the demand for biomedical engineers grows.

3. Doctor of Philosophy in Biomedical Engineering: A Doctor of Philosophy in Biomedical Engineering is a four-year degree program that focuses on the application of engineering principles to the medical field. Students learn about the design and development of medical devices, such as prosthetics, implants, and medical imaging systems. They also learn about the principles of physiology, anatomy, and biology, as well as the ethical and legal issues related to the medical field. This degree is becoming increasingly popular as the demand for biomedical engineers grows, and is often required for those wishing to pursue a career in research or academia.

4. Master of Business Administration in Biomedical Engineering: A Master of Business Administration in Biomedical Engineering is a two-year degree program that focuses on the application of business principles to the medical field. Students learn about the design and development of medical devices, such as prosthetics, implants, and medical imaging systems. They also learn about the principles of finance, marketing, and management, as well as the ethical and legal issues related to the medical field. This degree is becoming increasingly popular as the demand for biomedical engineers grows, and is often required for those wishing to pursue a career in management or administration.