Considered a young field in comparison to the myriad of scientific areas that have become a focus in society after the sixteenth century scientific revolution. Biomedical engineering is quickly growing in size. According to the U.S. Bureau of Labor Statistics, biomedical engineering is projected to grow over sixty percent by 2020 (Monaco). This high rise in jobs proves the increasing amount of opportunities in this field that combines life sciences with an engineering discipline. Biomedical engineering is a field that, with a large amount of education that normally includes graduate school, can lead to many career paths in either the industry or in research departments. Schools across the country such as Rice University and the University of Pennsylvania, host excellent biomedical engineering programs for prospective students. With a plethora of research projects and clinic jobs, biomedical engineering is a promising area of science to enter.
As a rigorous field that combines mathematical skills with the knowledge of science, a bachelor’s degree, typically one in biomedical engineering, is required for nearly all jobs in biomedical engineering (“Preparation”). The curriculum to receive a bachelor’s degree will be heavily focused in math, biology, chemistry, as well as physics. However, a majority of jobs in biomedical engineering require an advanced degree such as a master’s degree or a doctorate. Of those who obtain a bachelor’s degree in bioengineering, a third enter graduate school to study for an additional degree (“Guide to College Majors”). Overall, it is recommended that students attend graduate school to access a wider variety of jobs.During school, it is advised to apply for internships or research positions to gain ...
... middle of paper ...
... May 2014.
"Biomedical Rankings." U.S. News and World Report. U.S. News and World Report, n.d. Web. 07
May 2014.
Monaco, Ania. "What It Takes to Be a Bioengineer." The Institute. IEEE, 7 Dec. 2012. Web. 07 May
2014.
"Guide to College Majors in Engineering." Word Wide Learn. World Wide Learn, n.d. Web. 08 May
2014.
"Preparation." Career Cornerstone Center: Careers in Science, Technology, Engineering, Math
and Medicine. Career Cornerstone Center, n.d. Web. 08 May 2014.
"Rice University." Forbes. Forbes, n.d. Web. 8 May 2014.
"Undergraduate Curriculum ." Rice University Department of Bioengineering. Rice University, n.d.
Web. 07 May 2014.
"Why Penn Bioengineering?" Penn Engineering. University of Pennsylvania, n.d. Web. 08 May 2014.
"Work Environment." U.S. Bureau of Labor Statistics. U.S. Bureau of Labor Statistics, 8 Jan. 2014.
Web. 07 May 2014.
The medical field offers a variety of job opportunities for people of any age, education and skill level. One of the many jobs offered by the medical field is that of a biomedical engineer. A biomedical engineer applies engineering principles to healthcare and the equipment used in the health field. Being a biomedical engineer, you can take very many paths as soon as you finish your schooling. Depending on where you work, you can have multiple duties such as designing equipment and devices used for diagnosing and treating medical problems. Biomedical engineers evaluate the properties of biomedical equipment, maintain, and provide technical support with proper training required to use the equipment. On the more scientific aspect of the job,
Engineers are developing new systems to use genetic information, sense small changes in the body, assess new drugs, and deliver vaccines.
Landis, Raymond B. Studying Engineering: A Road Map to a Rewarding Career. Los Angeles, CA: Discovery, 2013. Print.
U.S. National Library of Medicine, 26 Sept. 2011. Web. The Web. The Web. 19 Nov. 2013.
A career and tech. high school is a type of schooling that when a student graduates gives that pupil a trade degree in that scholars certain area of study along with that learners high school diploma. This is different from a normal high school because a student graduates with a degree that enables a scholar to go straight into that pupil’s field of study. For example if a learner is studying biotech the student will learn how to use the tools used in everyday labs like micro and serological pipets. One fields of study that the biotech program trains the students to do is biomedical engineering. In order to become a biomedical engineer undergraduate’s need years of schooling, and understanding of the growth in industry, once the technician has the job that engineer must adapt to the job or the job will sweep the operator under the rug.
U.S. Department of Labor Staff. (2014, February 14). The Employment Situation - January 2014. Retrieved from Bureau of Labor Statistics: http://www.bls.gov/news.release/pdf/empsit.pdf
My preferred major is mechanical engineering. Mechanical engineering is the broadest engineering field, involving the design of mechanical systems. These systems are used in a multitude of different fields such as manufacturing, aeronautics, nanotechnology, nuclear power production, heating and cooling. A primary focus is on thermodynamics, structural analysis, materials science, and kinematics.
Your body has about 10 systems that work together to complete a human being. This is studied by a branch of biology called anatomy. Anatomy is the study of body structures of humans, animals, and other living organisms. There are different types of anatomy like human anatomy, zootomy anatomy (animal), and phytotomy anatomy (plant) (Nordqvist, Christian, “What Is Anatomy?”). Students who plan to become part of the medical field are required to take anatomy along with biochemistry. Biochemistry is the study of chemical reactions inside the body. Doctors, pharmacists, and physicians are required to take many other biology and chemistry classes, but anatomy and biochemistry are the two major subjects studied to join the medical field. Without these courses a doctor, a pharmacist, or a physician would not know the basics of a human structure, the reactions and acids inside a human’s body. To become part of the medical field it is mandatory to study anatomy and have knowledge of each of the systems along with biochemistry.
There are eleven basic types of engineering each with their own subcategories that the careers specialize in. The one that interests me the most, mechanical engineering, utilizes multiple categories of engineering but mostly focuses on moving parts. Because mechanical engineering uses more concepts of the other sub-categories of engineering than any other, it is a very flexible career that no employers can go without (Constant). This article is all about engineering and gives a decent overview of most of its branches and fundamentals.
Being the top student in my secondary school (with 85.5%), I got admitted into Electronics & Instrumentation Engineering at MIT, Ujjain. My curriculum enhanced my knowledge in Microprocessors, Digital Signal Processing, and Analytical and Industrial Instrumentation. Having a strong zeal towards Information System and Computer Programming, I have also learned different languages like C, C++, SQL and PL/SQL.
I have always been good at biology and mathematics. This is one reason why one of my many goals is to major in biomedical engineering. I am very excited to start studying biomedical sciences, and hope to use my newly learned skills in the medical field. Achieving a college education in such field will pave the road for my future career, by teaching and instilling knowledge that would not have been learned otherwise.
My desire of studying biomedical sciences stems from my sciences interest, as it demonstrates a world not visible to the naked eye, plays a big role in everyday life. science specifically biology and chemistry are stimulating and challenging subjects , over the years of studying them ,my interest has increased because learning things about how our bodies function and how it relates to god’s creation is particularly interesting for me. I also find it very important because I’m Muslim. The biomedical science degree will open for me the door to learn more about the vast field of biology and its branches to a greater depth. I developed my knowledge in the science field by taking support classes in the lab at school; I was fascinated by how the body can function in different circumstances and the complexity of DNA, different organisms, chemical reactions, and also very importantly the mathematical aspect which gives me the chance to develop and use my logic and it inform me to new ways of looking at given problems.
Becoming a biomedical engineering is difficult and requires some work, but it is not impossible. A person can actually begin working after pursuing his/her bachelor’s degree in either biomedical engineering or in a different engineering field. Although a bachelor’s degree in engineering will require either a graduate degree in BME or on-the-job training. There are many institutions that offer such training and are also top schools for BME in the midwest such as: Illinois Institute of Technology, Northwestern University, Southern Illinois University, University of Illinois in Chicago, and U of I in Urbana-Champaign. There are special requirements/qualities that will increase the chance of being hired as a BME. Having integrity, innovation, persistence, and dependability are really important qualities that one should have. A BME is depended on to be able to create projects or designs in a given amount of time. Biomed engineers often work together and in groups which require cooperation, attention to details, adaptivity/flexibility, and analytical thinking. Putting together ideas and being able to listen to others as well as combining ideas is what will bring success as well as create designs for prosthetics. A...
My career plan is to go into mechanical engineering. A mechanical engineer is the person who designs and make machines like generators. Engineering is a difficult and competitive field. Engineering requires a bachelor's degree and a good understanding of STEM (Science Technology Engineering Math). I would have to pass an engineering exam to get my license. Some school near me that offer the degree I want are Michigan, Michigan State, Michigan Tech, and Western Michigan.
Biological engineering is a type of engineering that uses biological and medical science to create products ranging from medicines to genetically-altered animals and plants in order to solve medical problems that is occurring in the world as of right now in hopes to cure diseases such as AIDs, STIs, and even cancer. A biological engineer’s job is to analyze and design solutions to problems in biology and medicine with intentions to advance the quality of medical care. Biological engineers usually work in places like universities, hospitals, research facilities, and government areas and they normally work full time. In order to pursue this career, you need a bachelor’s degree. Locations of employment occur in at least 30 states such as Texas, Florida, and California (please refer to the second link of the “works cited” page for the full list) in the urban areas. As of May 2012(due to lack of reliable sources for the pay of 2014), the pay people receive from this career varies depending on location and the industry. Hourly pay, according to the “U.S. Bureau of Labor Statistics” (BLS), ranges from $41.81 to $43.84 or $86,960 to $139,450 per year with the highest wages coming from Colorado ($104,550) and Minnesota ($103,440) while the lower pay states ($58,380-$74,030) are reported to come exclusively from Arizona, Nebraska, Indiana, Kentucky, South Carolina and Oklahoma. It is also shown that the longer you work in biological engineering, the more money you can receive as if you work for less than a year, you are expected to earn between $40,709-$79,631 while if you worked for more than 20 years, expect your salary to be in between $49,833-$127,477.