BIOMEDICAL ENGINEERING?
A multidisciplinary field called biomedical engineering (BME) uses scientific and engineering principles to address a wide range of issues related to human health and medicine. There is a high demand for expertise in the quickly expanding field of BME because of its significance for public health and multidisciplinary nature. After graduation, our students will have a wide range of employment opportunities, including a wide variety of careers in the fields of engineering, medicine, and health.
MISSION
The main objective is to create a skilled and diverse biomedical engineering workforce with the ability to address issues related to human health and well-being. The goal is to meet society’s technological needs, particularly in the District of Columbia and the Washington Metropolitan Area.
They work hard to develop new opportunities for the neighborhood, as well as for the public and private sectors, both within the District and outside of it. We want to give our students a supportive learning environment that encourages confidence and success in both individuals and groups. This environment should extend beyond the classroom. We place a high value on innovation, teamwork, ethical and professional responsibility, and critical thinking.
WHAT THE PROGRAM IS of Biomedical Engineering?
Currently, UDC is the only HBCU in the country to offer a Bachelor of Science (BS) in Biomedical Engineering (BME) degree program that has received ABET accreditation. Students at UDC are exposed to fundamental courses in Mechanical Engineering as well as specialized courses in Biomedical Engineering through the Bachelor of Science in Biomedical Engineering Program, which is housed within the Department of Mechanical Engineering.
This gives graduates of our BME Program the ability to engineer and design for living systems; they are prepared to enter the workforce after graduation, to pursue advanced degree programs in Biomedical Engineering and other related fields, and to pursue medical school.
Program’s educational goals
Associate Professor of Mechanical Engineering and the Center for Biomechanical & Rehabilitation Engineering’s founding director, Dr. Lara Thompson, Ph.D.
The educational goals for the following program have been established.
- Within a few years of graduation, graduates of the biomedical engineering program are anticipated to possess:
- A proven track record of success as a professional and/or pursuing advanced education in biomedical engineering or a related field;
- successful ability to formulate and design complex engineering solutions while incorporating knowledge of living, physiological, and biological systems, both independently and as part of a professional team; effective communication skills (both written and oral);
- Devoted to lifelong learning through leadership, research, and/or ongoing professional development in order to gain a deeper comprehension of the social, ethical, and environmental context of changing global conditions.
What do you learn in Biomedical Engineering?
The aforementioned aspects may be compelling from an academic and social perspective, but they are not what truly sets us apart from the competition. Here, we teach our students not just the engineering jargon, but also how to use that knowledge in the context of a global society.
This program, one of the first dozen accredited Biomedical Engineering programs in the United States, has a number of distinctive elements that draw outstanding students from all over the world, including:
Education with a broad scope: Catholic University’s strong liberal studies tradition gives graduates a thorough understanding of engineering as it relates to the international market.
Personalized education: Four undergraduate tracks—pre-medical, biomechanics and rehabilitation engineering, bio instrumentation, medical imaging and telemedicine, and biomaterials and hard tissue engineering—help students achieve their unique goals and needs.
Research partnerships: Prior to graduation, students can gain practical research and internship experience thanks to close ties with numerous metropolitan healthcare and research institutions.
Internships: Students can experience and work through real-world biomedical engineering problems thanks to an active internship program with nearby labs, hospitals, and industry.
The students have the opportunity to work in facilities like those at the National Institutes of Health, the Food and Drug Administration, NASA, and the National Rehabilitation Hospital thanks to our location in Washington, D.C.
Asia is one of the available study-abroad destinations for our students.
A pre-medical track that allows students to finish all of their requirements for medical school admission while earning a degree in biomedical engineering in just four years.
Proggrames of bachlours in Biomedical Engineering
Prospective engineering students have access to a wide range of educational opportunities in our country’s capital. There are two schools you can attend if you want to study biomedical engineering and create innovative new medical technology.
- Both bachelor’s and master’s degree programs are offered at these institutions. Since both Washington DC public and private schools charge tuition, the average annual cost is $33,100. One of the smallest average class sizes in the nation is found in Washington, DC, which has just 12 students.
- You must obtain a Bachelor’s degree from a Washington, DC, college or university before you can begin working in the field of biomedical engineering. It takes four to five years of full-time study to earn this degree. For the duration of
- You must obtain a Bachelor’s degree from a Washington, DC, college or university before you can begin working in the field of biomedical engineering. It takes four to five years of full-time study to earn this degree. You will complete 120 credits of engineering and general education coursework during your program.
Subjects of program
- Numerous subjects,
- including human biology,
- engineering, and biomedical principles, may be required of you.
- Quantitative Physiology,
- Medical Imaging,
- Biomedical Design
- Biology & Biotechnology are a few of the classes you might have to take.
It’s crucial to gain as much practical experience as you can while pursuing your degree. Every semester, expect to spen
Best Biomedical Engineering Schools in Washington DC
| Institution | Category | Location | website |
|---|---|---|---|
| School of Engineering and Applied Science | Engineering school | Science & Engineering Hall, 800 22nd St NW | https://www.seas.gwu.edu/ |
| Department of Biomedical Engineering | University | ||
| Howard University College of Engineering and Architecture | College | 2300 6th St NW | http://www.cea.howard.edu/ |
| American University | Private university | 4400 Massachusetts Ave NW | http://www.american.edu/ |
| University of the District of Columbia | University | 4200 Connecticut Ave NW | http://www.udc.edu/ |
| Georgetown College | College | 108 White-Gravenor 37th and O Streets, N.W. | http://georgetown.edu/ |
| The George Washington University | University | 2121 I St NW | http://www.gwu.edu/ |
| University of the District of Columbia Community College (UDC-CC) | Community college | 801 North Capitol St NE | http://www.udc.edu/cc |
| The George Washington University Summer and Special Programs | University department | 1922 F St NW STE 304 | http://precollege.gwu.edu/ |
| American University College of Arts and Sciences | University department | 4400 Massachusetts Ave NW | http://www.american.edu/cas/ |
| Georgetown University | University | 3700 O St NW | https://www.georgetown.edu/ |
| Georgetown University - Graduate School of Arts & Sciences | University department | 3520 Prospect St NW 4th floor suite 400 | http://grad.georgetown.edu/ |
| Howard University | University | 2400 6th St NW | https://www2.howard.edu/ |
| American University School of International Service | University department | 4400 Massachusetts Ave NW | http://www.american.edu/SIS |
| Howard University Cathy Hughes School of Communications | College | 525 Bryant St NW | http://communications.howard.edu/ |
| The Graduate School of Political Management | Graduate school | 805 21st St NW #401 | http://www.gspm.gwu.edu/ |
| Les Aspin Center For Government | College | 502 East Capitol St NE | https://www.marquette.edu/les-aspin/ |
| The Catholic University of America | University | 620 Michigan Ave NE | http://www.cua.edu/ |
| Washington Adventist University Honors College | University | 7600 Flower Ave | https://www.wau.edu/wau-honors-college/ |
| A. James Clark School of Engineering | College | Glenn L. Martin Hall, 1131, 4298 Campus Dr | https://eng.umd.edu/ |
Student Outcomes
The following skills are what graduates of the biomedical engineering program will have attained:
- A capacity for identifying, formulating, and resolving complex engineering problems using engineering, scientific, and mathematical principles.
- An aptitude for using engineering design to create solutions that satisfy particular requirements while taking into account public health, safety, and welfare as well as local, national, international, cultural, social, environmental, and economic factors.
- A capacity for effective communication with a variety of audiences.
- A capacity for ethical and professional responsibility recognition in engineering contexts and the ability to make defensible decisions that take into account the effects of engineering solutions in societal, economic, environmental, and global contexts.
- The capacity to perform well as a member of a team whose members collectively provide leadership, foster inclusivity, and collaboration, set goals,
- The capacity to perform well as a member of a team who, as a group, provides leadership, fosters inclusivity and collaboration, sets goals, organizes tasks, and achieves objectives.
- The capacity to design and carry out appropriate experiments, analyze and interpret data, and draw conclusions using engineering judgment.
- the capacity to learn new information when necessary and apply it in appropriate ways.
- Around 10 hours per week in the engineering lab at the school. Additionally, you might be able to complete an internship, which has networking benefits.
Career In biomedical Engineering
After earning your degree in biomedical engineering, you’ll be almost ready to begin your career. Get your license from the District of Columbia Board of Professional Engineering to get started.
Before receiving your license, a number of different fees must be paid. You must first pay a $65 application fee and a $165 exam fee. The Principles & Practice of Engineering exam must be passed before you can pay the $120 license fee and receive your license.
There are many advantages to joining the District of Columbia Society of Professional Engineers.
- You can go to educational events that are only open to members, which can advance your career.
- You can also learn about legislative changes and go to networking events
- You must obtain a Bachelor’s degree from a Washington, DC, college or university before you can begin working in the field of biomedical engineering.
- It takes four to five years of full-time study to earn this degree. You will complete 120 credits of engineering and general education coursework during your program.
