Nolan Ryan pete rose
My suggestion would be MIT. That is a great school for engineering.
school of engineernig
Msc in biomedical instrumentation : the right choice of instruments required for the design of the medical devices from the wide range of electronics & instrumentation family. The maintenance & troubleshoot of the equipments preventive & breakdown biomedical engineering has given an existence to biomedical instrumentation as one of its specialization. Since biomedical engineering is on a wider platform & is at medical to technology interface like human touch
To meet the qualifications for having a job on biomedical engineering, you have to first finish high school. Then, get the proper degree for biomedical scientist on college.
Most engineers in this specialty need a sound background in another engineering specialty, such as mechanical or electronics engineering, in addition to specialized biomedical training. Some specialties within biomedical engineering include biomaterials, biomechanics, medical imaging, rehabilitation engineering, and orthopedic engineering. Viper1 Anwser- At least an Associate degree in biomedical or electrical engineering is a prerequisite for a Biomedical Technician program. Biomedical engineer install, calibrate, and troubleshoot a wide range of sophisticated medical devices such as patient monitors, electrosurgical kits, and laser equipment etc.
Among the many factors students should consider before committing to a program of study in biomedical engineering are an academic institution’s level of support for research and development, the prestige of the school’s partnership with a university hospital, and the importance of obtaining a graduate degree for securing employment in the biomedical engineering industry. Biomedical engineering, once considered primarily an inter-disciplinary specialization, is now widely recognized as a scientific discipline in its own right. Biomedical engineering combines the design skills and practical application of mechanics of an engineering discipline with the medical, anatomical, and diagnostic knowledge of a health care discipline. Biomedical engineering requires extensive education and training in two core areas: biology and engineering. Because biomedical engineering is a relatively new field of study, there is a strong emphasis on research and development within the biomedical engineering field and its sub-fields, such as bio-compatible prosthetic technologies, biomedical micro-technologies, bio-mechatronics, bio-mechanics, bionics, rehabilitation engineering, medical imaging, and bio-pharmaceuticals. Each sub-field of biomedical engineering is research-intensive; thus, an academic program in biomedical engineering should include a strong emphasis on research and development. The prestige of an academic institution’s biomedical engineering program is often tied directly to the quality of its research and development programs as well as to the amount of funding for these programs. Closely connected with research and development is the ranking of the hospital or medical school that an academic institution is partnered with. Biomedical engineering is a science-intensive discipline and the ranking and reputation of the academic institution may affect employment opportunities for biomedical engineers. Undergraduate and graduate degrees in biomedical engineering, sometimes called bio-engineering, are offered by a growing number of institutions of higher education. Most, though not all, biomedical engineering degrees are accredited by the Accreditation Board for Engineering and Technology (ABET). Unlike some engineering degrees, such as electrical engineering, which often do not require postgraduate education for entry-level jobs, many entry-level positions in biomedical engineering require engineers to hold a graduate degree. In fact, many schools will require that students majoring in biomedical engineering commit to a long-term course of study that will lead to graduate degree, such as a master’s or doctoral degree.
The University of Utah has a BioMedical Engineering Undergraduate Program and a BioEngineering Graduate Program.
A career that would use a biomedical engineer degree would be company's like Johns Hopkins which are centers deigned for cutting edge technology and improvement to the quality of human life and health.
You need A and A* in your GSCE and you need a a level and a degree at university in Biology, Chemistry, Physics and Maths.
Unlike many other engineering specialties, a graduate degree is recommended or required for many entry-level jobs in Bioengineering.
This question is obviously a matter of opinion. Electrical Engineering is tops in my opinion, though, but it is also the most difficult degree to obtain. I say it's the best because you can go into ANY of the other engineering discipline fields after you finish your BS. For example, as an EE, I've worked in the biomedical engineering and now civil engineering fields. With a biomedical or civil degree, you can't work in EE fields, though. Mechanical engineering I would give a close second, because it is also a very broad field.
Biomedical engineers help to build medical or health care-related devices that patients can use. Biomedical engineering work involves taking a medical idea from the point of development all the way to the point that the product is finished. As such, biomedical engineers must not only have excellent engineering talent but also they must have sufficient creative ability. Becoming a biomedical engineer requires pursuit of a college degree and graduate training. Pursuing a bachelor’s degree program in biomedical engineering is useful if one hopes to pursue biomedical engineering as a profession. Also, college work will typically include a biomedical engineering internship where one does supervised engineering work in a medical environment. Usually professors in the school biomedical engineering department can be helpful in enabling students to find internships. Or, by contrast, career services specialists at a school can help students to locate a suitable biomedical engineering internship if necessary. During the final semester of college, one will either apply for a job in biomedical engineering or one will apply to a graduate program in biomedical engineering. Of note, individuals interested in biomedical engineering often pursue a Doctor of Philosophy (PhD) degree in biomedical engineering because attainment of the doctorate demonstrates to prospective employers that one has engineering expertise and excellent learning ability. This makes it more likely that one will be able to find the kind of job that one wants for the long term. Application to a PhD program in biomedical engineering typically requires that one obtain college transcripts and obtain references from professors or former employers. In addition to this, writing an application essay and taking the Graduate Record Examination (GRE) is usually necessary. Going through an application interview might also be necessary in some cases. The PhD program will be at least five years in duration and will require demanding coursework that is usually done on a full-time basis. Also required will be a doctoral dissertation and a doctoral level internship where one will be expected to do doctoral level supervised work in biomedical engineering. If one can successfully complete the required biomedical engineering coursework, the doctoral internship, and the doctoral dissertation, one can become a biomedical engineer.
you need a bachelor's degree of science in biomedical engineering. in order to do that you need to take math, life and physical sciences, computer and laboratory classes to get this degree.
Biomedical engineering degrees are becoming more and more popular although the field of biomedical engineering - and all that it entails - may still be a little unfamiliar to the average Joe. One of the first questions asked by students who are contemplating enrolling for a biomedical engineering degree is what type of careers would be available to them once they had graduated. Biomedical engineering degree programs usually include courses in such diverse subjects as linear control systems, the integration of medical imaging systems and neural computation using artificial neural networks, and it may well be hard for students to see how subjects like that would fit into everyday life. There are, however, several career paths that would require a grounding in biomedical engineering, and, for those who veer more towards the medical mainstream, biomedical engineering can also be taken as a pre-med major. Available careers in biomedical engineering would include positions like medical imaging technicians, biomedical service engineers and technical support specialists. Although exact duties will differ from job to job, students with a degree in biomedical engineering can expect to occupy their professional time doing things like inspecting, servicing and repairing medical imaging machinery, marketing and selling x-ray and related equipment and installing and calibrating medical machinery like ultrasound, anesthesia, laser, mammo and sterilization equipment. Further responsibilities of the working biomedical engineer - especially at the managerial level - could include overseeing a staff of technicians who would be responsible for the upkeep of all x-ray, imaging and related equipment in a clinic or hospital. Although most hirers in the biomedical engineering field will want a candidate who holds a graduate - or at least an undergraduate - degree in biomedical engineering, some will be satisfied with a candidate who holds a certificate. Generally speaking, higher level biomedical engineering jobs will go to those with higher qualifications although companies who are looking for ground-level trainees will be satisfied with students with ground-level qualifications as they usually provide on the job training. Biomedical engineering is an interesting and rewarding field that has great potential for growth as every day sees diagnostics, surgery and rehabilitation become more dependent on machinery.
Clinical Biochemistry is the postgraduate degree in Biomedical Science that is in demand in the United States and the states. This degree is more about research.
Someone can get a computer engineering degree by going to school and getting a bachelors degree in computer engineering. An electrical engineering degree is similar to a computer engineering degree.
The University of Connecticut offers numerous degree programs in a variety of fields. The most popular programs include management, marketing, biomedical sciences, and engineering.
The high school classes that a person can take to become a biomedical engineer are science and mathematics courses. These are courses that will prepare you for the undergraduate degree in this field. Classes that you may need to take for a bachelor's in biomedical engineering are advanced mathematics, chemistry, biochemistry, molecular biology, and mechanics.
A degree in aerospace engineering.
A large number of jobs require a post-secondary science degree. Engineering (chemical, mechanical, petrochemical, electrical, nuclear, biomedical, and environmental) jobs all require a science degree, and pay handsomely.
It is a new kind of engineering and therefore graduates with a degree in biomedical engineering are well sought after with a variety of career options open to them. Biomedical engineering teaches you the engineering processes in sensitive bodies, as opposed to other engineering degrees. This enables you to apply your knowledge of sensitive systems into many fields of engineering, enabling you to be the best kind of engineer. Currently, not only is medicine making advances, but so is machinery, and this occupation allows the combination of the two to help further medical achievements, and create treatments, artificial limbs, and artificial organs etc.
Most engineers have a bachelor's degree and a master's degree. There are many types of engineering and the master's program will be specialized to the needs of the degree. Some of the types of engineers (for example): Civil engineering (roads, sewers, traffic planning, etc.) Electrical engineering (computers, appliances, scientific gadgets) Aerospace engineering (airplanes and rockets) Structural engineering (skyscrapers and bridges) Chemical engineering (medicine, oil refining, plastics) Biomedical engineering (medicines, treatments) There are many more. The most in-demand and highest paying of these often require a PhD.
I'm very keen on becoming biomedical engineer in future.but unfortunately i have to choose bio technology degree because of my financial side.but if i can enter biomedical engineering with doing any major as my master"s it would get very pleasure for me. furthermore i saw some websites have published the name of biomedical engineer under the careers in biotechnology.This is very hesitation for my mind.thus I'm eagerly looking forward your answer. Thank you