Engineering is growing as a field of study in colleges around the world as people continue to realize how important, interesting and lucrative this field is. Engineering uses many different areas of knowledge in the construction of machines and devices. Students in engineering are well prepared to put their skills to use in a variety of interesting careers, from building cars, spaceships, and computers to designing environmentally friendly electrical systems.
Few engineering majors decide to study abroad, which makes sense -- an engineering courseload is enough work as it is! However, there are quite a few top-rated engineering programs internationally that would be the perfect place to continue your technical studies, while also having the opportunity to study another language and explore a new country. The exciting part about engineering is that there are several specialty areas you can choose. Here are some of the most popular:
Studying in this field will teach you how to work with software or hardware. You'll make sure they both work flawlessly together. Learn how to design new hardware or software, and constantly make them better and faster.
Hardware consists of working with routers, microprocessors, and circuit boards, while software consists of testing and debugging applications and programs on computers. You'll continue to put them through rigorous testing phases until everything works perfectly and is ready for the public.
Biomedical engineering involves working in the medical and health field. You'll design the newest concepts for biology and medicine for therapeutic or diagnostic healthcare purposes. This is an exciting field to be in, as the advances in modern technology and healthcare are constantly changing.
Your time will be spent researching, developing, and testing your designs to see how your concepts work. Areas you may work in include imaging equipment such as EEGS, MRIs, micro-implants, pharmaceutical drugs, and regenerative tissue growth.
The field of mechanical engineering consists of designing, producing, and operating machinery. Material science and physics are widely applied from the start of the design process to the end result of manufacturing and maintaining the machines.