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biomedical
The laboratory instrument computer began processing data in an MIT lab to assist with biomedical research in 1965. This development marked a significant advancement in the use of computing technology for scientific research, enabling more efficient data analysis and interpretation in the biomedical field.
To become a biomedical scientist first someone must study and obtain an academic degree such as a PhD in the field of biology. Some of these scientists also pursue a medical degree in addition to their academic degree. Once schooling is completed a biomedical scientist can look for work in a academic setting such as a university or research institute. They can also get an industry job such as working at a pharmaceutical company.
The jobs in this field involve working for large corporations that usually have their own research lab. They may work for hospitals or research projects as well.
Biology is one thing; biomedical science is another. Biomedical science is a scientific field that includes lots of math, chemistry and physics, which is not everyone's cup of tea. Individuals with advanced degrees go on high paying jobs in research and development in the field, including pharmaceuticals. Those who pursue these areas of study have a proclivity to math and science. The individuals are not competitive per se; the field is.
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.
Individuals with a PhD and postdoc in biomedical research often pursue careers as research scientists, university professors, industry researchers, or science policy advisors. They may also work in pharmaceutical companies, government agencies, or non-profit organizations in roles such as research and development, project management, or scientific consulting.
statistics had a great role in the business and commerce field . it also had agreat role in the field of research.
PhD researchers in biomedical engineering are responsible for conducting advanced research, developing innovative technologies, and contributing new knowledge to the field. Their roles include designing experiments, analyzing data, writing research papers, and collaborating with other scientists. They also often teach and mentor students, present their findings at conferences, and seek funding for their projects.
Biomedical engineering assignment help uses the techniques and applications of engineering in the medical and biology field in order to achieve the best score.
Statistics are needed to analyze data and show which outcomes are significant.
Some jobs you can pursue with a degree in biology include biomedical researcher, environmental consultant, pharmaceutical sales representative, and scientific writer. Many careers in healthcare, research, education, and conservation are open to those with a background in biology.