About

Modern science has been remarkably successful in providing understanding of how natural systems behave. Such disparate phenomena as the workings of cell-phones, the ways in which we detect supermassive black holes in the galactic core, the use of magnetic resonance imaging in the diagnosis of disease, the effects of global carbon dioxide levels on shellfish growth, and the design of batteries for electric cars are all linked at a deeply fundamental level. This program will introduce you to the theory and practice of the science behind these and other phenomena, while providing the solid academic background in mathematics, chemistry, and physics necessary for advanced study in those fields as well as for engineering, medicine, and biology.

We will integrate material from first-year university physics, chemistry, and calculus with relevant areas of history and scientific literature.  The program will have a strong laboratory focus using computer-based experimental control and analysis to explore the nature of chemical and physical systems; this work will take place in a highly collaborative environment.  Seminars will provide the opportunity to explore the connections between theory and practice and will provide opportunities to enhance technical writing and communication skills. The program is intended for students with solid high-school level backgrounds in science and mathematics, but the key to succeeding will be a commitment to work, learn, and collaborate.