Biomedical engineers are responsible for working on materials technologies, computer-integrated systems, design, manufacturing, imaging – technology more powerful than any one of these professions could do on its own. The market is growing faster than ever, so get ready to jump in with both feet.
The following article provides you with important details about biomedical engineering which can help you determine if masters in biomedical engineering is worth it. CollegeLearners offers detailed information on is a masters in biomedical engineering worth it,should i major in biomedical engineering,how much does a masters in biomedical engineering make and other relevant topics
By enrolling in a bachelor’s degree program, students put down roots that act as an anchor and foundation to the future of their careers and educations. Undergraduate instructors and courses provide an introduction to a specific industry or specialty area. After completing a degree program, graduates may decide to start their careers or continue their studies in a graduate degree program.
What is a Bachelor in Biomedical Engineering? Such a degree program is structured to teach students about the intersection of science and technology and how they both relate to biotechnology, biology and medicine. Courses often touch on subjects such as mathematics, engineering and fundamental science. Professors and instructors usually provide students with guidance on ways to enhance human health, society and health care through biomedical engineering.
Benefits of taking courses in a biomedical engineering degree program include becoming an asset to professional groups and communities. Graduates might also be interested in using their education in other related professions, such as law, management or medicine. A bachelor’s degree is often necessary for qualifying for certain job positions and securing a higher salary.
Those interested in knowing how much it costs to complete a degree program in biomedical engineering would be better off getting in direct contact with the schools in which they are interested in attending. Costs vary according to program length, books required for classes, geographic region and whether a student learns on-campus or online.
After successfully completing a Bachelor in Biomedical Engineering program, an individual might be intrigued at the idea of using his or her education to create devices, software and instruments to solve clinical issues or create new clinical procedures. Industries in which engineers are commonly employed include medical supplies and equipment manufacturing, surgical hospitals, medicine manufacturing, and scientific development services.
Biomedical engineers are true masters of science and design; they work diligently to solve the problems of the future. Biomedical engineers work to apply knowledge of engineering, biology, and biomechanical principles to the design, development, and evaluation of biological and health systems and products. Things like artificial organs, prostheses, medical information systems, and health management are, for the most part, all thought up by those with backgrounds in biomedical engineering
Top 10 Best Master’s in Biomedical Engineering Degrees
RANK | SCHOOL | LOCATION |
---|---|---|
1 | Cornell University | Ithaca , NY |
2 | Georgia Institute of Technology-Main Campus | Atlanta, GA |
3 | Brown University | Providence, RI |
4 | George Washington University | Washington, DC |
5 | Duke University | Durham, NC |
6 | Rice University | Houston, TX |
7 | Johns Hopkins University | Baltimore, MD |
8 | Colorado State University-Fort Collins | Fort Collins, CO |
9 | Carnegie Mellon University | Pittsburgh, PA |
10 | Lawrence Technological University | Southfield, MI |
From manufacturing, orthopedics and pharmaceuticals, to medical imaging and biosensors, there is no shortage of opportunities for those with a degree in Biomedical Engineering. In fact, the U.S. Bureau of Labor Statistics projects that the biomedical engineering field will grow 27 percent in the next decade – one of the fastest rates of any other occupation!
Not to mention the annual median salary for biomedical engineers is $87,000. Not a bad chunk of change for those looking to change the world! Just five years ago, CNN Money ranked Biomedical Engineer as the #1 job in the United States; and the prospects are still looking good. Not only do these engineers make great money, they get to be creative and innovative as they work in universities, hospitals, labs, etc.
Some popular companies that hire biomedical engineers include:
- NASA
- Microsoft
- Tyco Electronics
- Johnson & Johnson
- GE Global Research
Forbes ranked biomedical engineering as the #1 major that is most worth a student’s tuition. However, with modern technology and our growing society, it can be difficult to stay on top of the latest advantages. Biomedical engineers always need to be not just one or two, but 10 steps ahead of the game at all times. It’s an extraordinary field of work to pursue, but it’s also extremely complex.
It’s important to be passionate about this field; if the human body doesn’t interest you, biomedical engineering is not your calling. But, if you dream of bringing science fiction to life by growing human organs in a lab, a Master’s in Biomedical Engineering may suit you perfectly.
According to U.S. News & World Report, the highest-paying biomedical engineering jobs are located in California; specifically in the metropolitan areas of San Francisco, San Jose and Santa Rosa. Other high-paying markets include Richmond, V.A., Austin, T.X., Durham, N.C., and Columbus, O.H.
Job opportunities are expected to expand dramatically as an entirely new class of products, instrumentation, and implants come to light. The impact to human health will be extraordinary as biomedical engineers continue to solve the toughest problems of the 21st century.
Should I Major In Biomedical Engineering
The field of biomedical engineering is fairly new as technology continues to rapidly change and grow. The future of the industry can only expand and reach new heights from this point. We’ve ranked the best master’s degrees in the fields by looking student satisfaction, return on investment, and institutional excellence, with data from U.S. News and World Report, Payscale, IPEDS, and college websites. Start your journey to helping others by problem solving in medicine and healthcare with one of the 50 Master’s degrees below!
What Types of Jobs Can I Get In Biomedical Engineering?
Biomedical engineering is one of the hottest fields right now, and the types of jobs in biomedical engineering pay some of the highest starting salaries you can currently get. Being a fusion of healthcare and engineering, the two areas of study that are consistently praised for offering the best job prospects for students, biomedical engineering involves applying engineering principles to create solutions for healthcare and usually deals with the design and development of medical products, according to the Bureau of Labor Statistics. If you plan on having a career in this cutting-edge sector, you’d probably be interested to know what kinds of biomedical jobs are out there. Here are some popular sub-fields in biomedical engineering and a handful of job titles that you could potentially hold with a biomedical engineering background.
Common Biomedical Engineering Specialties
Bioinstrumentation
Bioinstrumentation involves designing and developing tools and equipment that are used to diagnose and treat diseases. Most of these technologies are advanced electronic devices that function cooperatively with a computer.
Biomaterials
Biomaterials professionals are tasked with designing and developing materials that are suitable for use within the human body. These implant materials must be completely safe for patients, and that means the absence of carcinogenic properties and toxins. Implant materials also need to be structurally sound so that they can last a lifetime and chemically stable and inert. Some biomaterials make use of living cells for better assimilation into body.
Biomechanics
This sub-field deals with the body’s movements. Engineers who specialize in biomechanics focus on designing and developing products that aid with motion within the body. Artificial heart valves and joint replacements are examples of biomedical products that assist with the flow of blood and motor functions, respectively.
Cellular, Tissue, and Genetic Engineering
Biomedical professionals who specialize in this area work on the microscopic level to find solutions for bigger problems. Concentrating on cellular activity makes it easier to understand the progression of diseases and develop ways to remedy or halt them before it’s too late.
Clinical Engineering
Clinical engineers find uses for medical products in hospitals and other healthcare facilities. They work alongside physicians, nurses, and other medical personnel to help them implement and operate the technologies.
Medical Imaging
Biomedical engineers who work in medical imaging design and develop devices that allow healthcare professionals to see inside the human body.
Orthopedic Bioengineering
Orthopedic bioengineers design and develop products that deal with the bones, muscles, joints, and ligaments. These products mainly comprise of implants that assist with movement. The implants may work in conjunction with the surrounding tissues, or they may completely replace certain bones, muscles, joints, or ligaments.
Rehabilitation Engineering
The primary focus of these engineers is to design and develop prosthetics so that people can regain normal function in damaged body parts.
Systems Physiology
Engineering principles and tools are used to gain a comprehensive understanding of how various living organisms function.
Common Job Titles in Biomedical Engineering
Manufacturing Engineer
Manufacturing engineers are responsible for developing and designing medical products. These products may include medical instruments, imaging devices, prosthetics, and more.
Quality Engineer
Quality engineers examine medical products after they’ve been manufactured to make sure that they meet certain standards and specifications. They offer suggestions for modifications when necessary and may be responsible for coming up with in-depth revisions themselves.
Software Engineer
Software engineers in biomedical engineering focus on designing and developing computer programs that are used for various medical applications. These programs typically allow medical personnel to display and manipulate the data recorded by other medical devices.
Researcher
Researchers spend the bulk of their time obtaining knowledge to find solutions to medical problems. In biomedical engineering, researchers primarily seek information to aid with the proper design of medical products and to ensure that they pose no threat to users. Many researchers also teach at the university level.
Physician
Many people with biomedical engineering backgrounds move on to medical school to become doctors. Doctors diagnose and treat illnesses.
Related Resource: CDC Internships
As you can see, there is no shortage of jobs in biomedical engineering. No matter what your particular health-related interests are, biomedical engineering can probably be applied to it in one way or another. The types of jobs in biomedical engineering are so vast and varied that you’ll never get bored of your chosen occupation.