Course Description
Embark on an exciting journey through the vast and dynamic world of biomedical engineering with this comprehensive introductory course. Designed to provide a broad overview of this rapidly evolving field, this course offers an unparalleled opportunity to explore more than two dozen areas of focus within biomedical engineering. You'll gain insights into cutting-edge advancements happening at top institutions and have the chance to interact with over three dozen biomedical engineers, ranging from industry leaders to emerging talents.
What Students Will Learn
- The extensive scope of biomedical engineering
- Current advancements in various specializations
- How to choose an area of focus and appropriate degree program
- Career paths and experiences of successful biomedical engineers
- Strategies for planning and developing your own career in the field
Prerequisites
- Secondary school (high school) level knowledge in mathematics, science, and reasoning
- No prior experience in biomedical engineering is required
- A curious mindset and interest in the field of biomedical engineering
Course Coverage
- Overview of 25+ focus areas within biomedical engineering
- Cutting-edge advancements in biomedical technology
- Thinking processes of professionals in related fields (e.g., pilots, baseball batters)
- In-depth look at human anatomy and physiology (e.g., inside view of a beating heart)
- Developments in bionics, exoskeletons, and nanotechnology
- Career guidance and educational pathways in biomedical engineering
- Hands-on exercises to experience different areas of specialization
- Interviews and insights from 30+ biomedical engineering professionals
Who This Course Is For
- Students considering a career in biomedical engineering
- Individuals curious about the field of biomedical engineering
- Professionals looking to transition into biomedical engineering
- Anyone interested in the intersection of biology, medicine, and engineering
Real-World Applications
The knowledge and skills gained from this course can be applied in various ways:
- Informed decision-making when choosing a specialization within biomedical engineering
- Better understanding of potential career paths and opportunities in the field
- Improved ability to discuss and engage with current topics in biomedical engineering
- Enhanced problem-solving skills applicable to real-world engineering challenges
- Networking opportunities with professionals and peers in the industry
- Foundation for further studies or research in biomedical engineering
- Ability to recognize and capitalize on emerging trends in the field
Continuing Education
For verified students, the course offers Continuing Education Units (CEUs) and Professional Development Hours (PDHs), which can be applied towards continuing education requirements for many professional certifications.