Kentucky Masters in Biomedical Engineering Schools
Masters in Biomedical Engineering on Campus programs give students the opportunity to enhance their technical knowledge and skills in engineering so that they might solve today’s most critical problems in biology and medicine. As a student in a Masters in Biomedical Engineering program, you will study biomedical engineering topics such as biomaterials, medical imaging and biomedical instrumentation. Biomedical Engineering is often used synonymously with the term ‘bioengineering’ when they both refer to the application of engineering principles to the fields of biology and health care. Sometimes, however, it can mean ‘biological’ or genetic engineering and may refer to agriculture. Students should take the time to evaluate their career goals and request information from the school to ascertain what they will be studying.
Masters in Masters in Biomedical Engineering on Campus Program Overview
Admission to a Masters of Science in Biomedical Engineering Program commonly requires students to have a Bachelor of Science degree in or advanced degree in chemical engineering, mechanical engineering, electrical engineering, computer science, computer engineering, physics, chemistry, biology, premedical, bioengineering and biotechnology.
Students are usually able to earn a master's degree in biomedical engineering within two years of completing an undergraduate program. Typically, candidates must earn around 30 or 36 academic credits to complete a master's degree program. Common master's degrees in Biomedical Engineering are the Master of Science (M.S.) or the Master of Engineering (M.Eng). Coursework for both degree types is similar, though the M.S. typically includes a thesis requirement. The M.Eng. is geared towards individuals who would like to complete additional technical coursework instead. Students can look for programs that offer a
thesis or non-thesis degree options. Some programs also entail fulfilling the requirements of a practicum or a research project.
Why Choose a Campus-Based Masters in Biomedical Engineering Program
Some students prefer to take courses on-site where they can interact with their instructors and classmates face-to-face in a traditional classroom setting. One of the potential advantages, apart form networking, is that students gain access to the facilities of their university. This can be a plus when you have laboratory work as well as library researching to do.
If campus life does not suit you or does not fit your specific time schedule, you may want to consider an online biomedical engineering masters program, as this allows you a flexible schedule. There are even hybrid biomedical engineering masters programs that give you the flexibility of some online classes while still being able to enjoy campus life.
Finding a Biomedical Engineering School
GradSchools.com can help simplify the process of finding accredited Biomedical Engineering schools with masters degree programs. Start with a location search to determine the city, state or country that you would like to study in. this will yield listings such as Biomedical Engineering MS, and Bioengineering MS programs.
FUN FACT: Biomedical engineering and bioengineering programs are accredited by ABET
Potential Coursework in Biomedical Engineering Masters Programs
Most Masters in Biomedical Engineering programs require students to establish the necessary foundation in molecular- or systems-level biology/physiology and mathematics, in addition to advanced biomedical engineering, physics and design techniques coursework.
Students often are able to choose courses in topics that include:
- Biomedical instrumentation
- Drug delivery,
- Orthopedic biomechanics and devices
- Protein engineering
- Anatomy and physiology
- Systems analysis and mathematics (eg: calculus for engineers)
- Medical imaging and material science
Explore a Career in Biomedical Engineering
Graduates with a master’s degree in Biomedical Engineering may be well placed in a fast-growing field. According to the Bureau of Labor Statistics, employment of Biomedical Engineers in is projected to grow 23% between 2014 and 2024. With technology rapidly advancing, new areas of employment will be generated and created.
Often, Biomedical Engineers choose a specialty within the field, such as:
- Clinical Engineering
- Rehabilitation Engineering
- Systems Physiology
Ready to Pursue a Masters in Biomedical Engineering?
The combination of expertise in engineering and biology can be used in many professional fields, whether to develop new MRI technology, design computer software, or find new materials to improve prosthetics. With the experience of working in the field and advanced education, Biomedical Engineers may experience upward career mobility. Why not prepare yourself by earning a Masters in Biomedical Engineering!
Sources: onetonline.org/link/summary/17-2031.00 | bls.gov/OOH/architecture-and-engineering/biomedical-engineers.htm