Biomedical engineering is the exercise of engineering principles for the health benefit of medicine. Biomedical engineers perform a wide variety of jobs that can include research and development of medical products; design or modify equipment for customers with special needs or operate clinical equipment in hospitals and medical facilities. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original Essay Biomedical engineers' duties might include the design and development of medical devices such as artificial hearts and kidneys, pacemakers, artificial hips, and surgical lasers. Adapt computer hardware and software for scientific or healthcare applications. They would also conduct research to test and ensure the safety of equipment used for diagnosis, treatment and monitoring. Similar to any other job, these engineers supervise and train technologists and technicians. Biomedical engineers earn an average hourly wage of $41.45. Hourly pay typically starts at $24.75 and could go as high as $67.08. Salaries typically start at $51,480 and go up to $139,520. Biomedical engineers receive compensation in excess of 40% of engineering careers. Biomedical engineer salaries are in the top 85% of salaries paid in the United States. Biomedical engineers earn an average hourly wage of $41.45. Biomedical engineers work in offices, laboratories, workshops, clinics and hospitals. Biomedical engineers work in teams with scientists, healthcare professionals, or other engineers. Where and how they work depends on the project. If the engineer finds a way to improve the device, he or she may have to go back to the manufacturer to help modify the manufacturing process to improve the design. Most biomedical engineers work standard hours on weekdays. Longer hours may be required to meet research deadlines. In high school, science courses such as chemistry, physics, biology prepare the future engineer for the rigorous engineering courses in college or the intense amount of work in training. Algebra, Geometry, and Calculus could be taken as mathematics courses to deepen knowledge and experience. Not all schools have engineering or engineering-related courses; If available, it is highly recommended to take them because they will introduce students to the real world of engineering. Three-year degree in Biomedical or Bioengineering. Courses such as computer programming, advanced physiology, writing and laboratory courses. A bachelor's degree is not required but recommended for students wishing to lead a research team. College education is not the only way to become an engineer, there are many internships and training programs that aspiring engineers could enroll in to familiarize themselves with the job. Internships and on-site training could replace the education traditional engineers receive in school. Please note: this is just an example. Get a custom paper from our expert writers now. Get a Custom Essay In a relatively young field of biomedical engineering, work is very positive and employment is expected to grow 23% in 10 years, much faster than the average for all occupations. The reason for this expected explosive growth is due to the increased use of the technology and the demand for its application in medicine. Due to the high ambition of extending life expectancy through technology, biomedical engineering will be incorporated into many other sectors, thus creating a very favorable job outlook.