Aerospace Engineering uses the basic sciences and mathematics to develop the foundation for the design, development, production, testing, and applied research associated with aerospace vehicles. These vehicles include aircraft, spacecraft, and missiles.
Major Guides: Engineering 2013-2014
Biomedical engineering is the application of engineering principles and methods to the solution of problems in the life sciences. This broad field spans applications at the molecular level (genetic engineering); at the cellular level (e.g., cell and tissue engineering); and in intact organisms, including humans in particular.
Biosystems Engineering is the most “integrative” engineering discipline available today. It combines elements from biological, chemical, environmental, mechanical, civil, electrical, and other engineering disciplines to produce the broadest possible engineering skill set. This engineering background is complemented with a focus on biologically-based systems critical for solving problems involving energy, people, and the environment.
A degree in Biosystems Engineering is no longer just preparation for a career in engineering. Many professional schools (medical, dental, veterinary, legal, and others) have realized that the rigors of an engineering curriculum prepare you for almost any challenge. The main emphasis of the Pre-Professional Concentration is to prepare you for acceptance to a professional program.
Chemical and biomolecular engineering is engaged in the development, design, operation, and management of plants and processes for economical, safe conversion of chemical raw materials to useful products, such as pharmaceuticals, plastics, and specialty chemicals. It is a broadly based discipline with heavy emphasis on chemistry and mathematics, with supporting study in areas such as physics, materials science, and humanities.
Civil and environmental engineering is about the basic infrastructure of society and community service, development and improvement– the planning, design, construction and operation of facilities essential to modern life and economic vitality.
Computer Engineering deals with the electronic hardware side of electrical engineering and the programming side of computer science.
Computer Science is the systematic study of algorithmic processes that describe and transform information: their theory, analysis, design, efficiency, implementation, and application. The fundamental question underlying all of computing is: What can efficiently be automated?
Electrical Engineering deals with the application of the physical laws governing charged particles. From miniature integrated circuits that contain millions of microelectronic devices, to high-speed fiber-optic communication systems that span international boundaries, electrical engineering impacts every aspect of modern-day living. Electrical engineering is unique among the engineering disciplines because of its wide range of applications.
Originally, the industrial engineering profession focused on manufacturing. Today’s industrial engineer is involved in the design of systems and processes to produce and deliver goods and services not only in manufacturing, but also in the service industries and government sectors of the economy.
Materials Science and Engineering (MSE) is a discipline that is on the leading edge of technology through the development of new materials and the improvement of existing materials for applications in all engineering fields. It is at the forefront of modern technological advances and its graduates are in great demand.
Mechanical engineering is the application of the laws of solid and fluid mechanics and the thermal sciences to the analysis, design and/or manufacturing of systems and products.
Nuclear Engineering is the engineering discipline that focuses on the application of sub-atomic processes for the benefit of mankind.