We begin by introducing tensors in non-relativistic physics. We then give an overview of Special Relativity, and discuss the special nature of gravity...
Discover and apply a range of technologies and techniques to generate, isolate, and enhance mutated bacterial proteins. Lectures and readings about pr...
Condensed matter physics has evolved from solid state physics into a subject which focuses on collective behavior, symmetry, and topological states. ...
Learn basic principles of nucleic acid chemistry and engineering through lectures and discussions. Build on this basic knowledge to explore current re...
Discover the principles of electrochemistry with a particular focus on redox behavior of transition metal complexes including metalloproteins. Review ...
Discover and use the techniques of ultrafast spectroscopy with an overview of modern methods and applications. Through exercises and presentations, ex...
Advanced level course in atomic physics. Progress in laser control of atoms has led to the creation of Bose-Einstein condensates, ultrafast time and...
Design and synthesize small organic functional molecules for understanding and controlling biological systems. Build a strong foundation of modern syn...
Review of geometrical optics; wave properties of light and the wave equation; Helmholtz equation; wave optics, including Fresnel and Fraunhofer diffr...
Learn quantum field theory from lectures and by working through classic and recent papers to follow developments in the field. Progress from a recon...
