The ME curriculum encompasses elements from a wide array of disciplines built around the themes of biomedicine, computational engineering, design, energy, and multiscale engineering. Course work may include mechatronics, computational simulation, solid and fluid dynamics, microelectromechanical systems, biomechanical engineering, energy science and technology, propulsion, sensing and control, nano- and micro- mechanics, and design.
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).
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.