Aeronautics and Astronautics
Applied and Engineering Physics
Explore the disciplines where fundamental physics meets applied science and engineering.
Understanding and interfacing with complex living systems is at the heart of bioengineering with applications ranging from advancing human health to promoting environmental sustainability.
This degree introduces fundamental biological and biophysical principles while developing strengths in traditional engineering areas, specifically mechanical engineering.
The study of Chemical Engineering begins with experimentation in the laboratory and is followed by implementation of technology in full-scale production
Students acquire in-depth knowledge of the principles of chemistry, the methodologies necessary to solve complex problems, and the ability to articulate their ideas effectively to the scientific community.
Civil and Environmental Engineering
This pre-professional program balances the fundamentals common to many specialties in civil engineering and allows for concentration in structures and construction or environmental and water studies.
Learn electrical engineering principles along with the required supporting knowledge of mathematics, science, computing, and engineering fundamentals.
The Engineering Physics program is designed for students who have an interest in and an aptitude for both engineering and physics. Students begin with a year of mathematics and calculus-based physics, and then proceed to depth courses in physics and engineering, as well as elective courses in a selected specialty area (Aerospace Physics, Biophysics, Computational Science, Electromechanical System Design, Energy Systems, Materials Science, Photonics, or Renewable Energy).
Conduct research and think critically about questions involving the Earth.
Honors in the Arts
Whether you are already studying the arts, or are in an unrelated major, complete a capstone project integrating a broad arts perspective.
Offers an interdisciplinary approach to understanding human beings from biological, behavioral, social, and cultural perspectives.
Management Science and Engineering
Be able to plan, design, and implement complex economic and technical management systems.
Mathematical and Computational Science
Study the mathematics basic to all the mathematical sciences and an introduction to concepts and techniques of computation, optimal decision making, probabilistic modeling and statistical inference.
Provide students with a broad understanding of mathematics encompassing logical reasoning, generalization, abstraction, and formal proof.
Mechanical Engineering encompasses elements from a wide array of disciplines built around the themes of biomedicine, computational engineering, design, energy, and multiscale engineering.
Philosophy concerns itself with fundamental problems and examines the efforts of past thinkers to understand the world and people's experience of it.
Develop an understanding of the fundamental laws that govern the universe, and a strong foundation of mathematical, analytical, laboratory, and written communication skills.
Science, Technology, and Society
Provides students with an interdisciplinary framework through which to understand the complex interactions of science, technology and the social world.
For students interested in the theory of statistics and/or probability, or for students who wish to apply statistical and probabilistic methods to a substantive area.
An interdisciplinary program focusing on the relationship between natural and artificial systems that represent, process, and act on information.