Chemical kinetics is the study of the rates of chemical reactions; if changes in conditions impact the speed of a reaction, we can better understand what caused the reaction. In this course, you’ll learn to understand complicated data sets and analysis techniques for measuring and understanding these rate changes. You’ll study the origin of kinetics rate laws, emerging tools, techniques and topics of interest to chemical engineers, material scientists, chemists and biologists.
Prerequisites
A background in chemical kinetics, enzymology, or reaction design would be helpful for this course
Topics include
Commonly used experimental techniques for collecting reaction rate data
Emerging experimental tools, especially single-molecule techniques, for characterizing enzyme kinetics
Transition state theory, a useful framework for understanding the physical factors that govern chemical reactivity
Marcus theory, which describes the physical principles that govern electron transfer reactions
Enzyme kinetics, including the origins of enzymatic catalysis, Michaelis-Menten kinetics, inhibition models, and models of protein allostery and cooperativity
Monte Carlo simulations as a useful tool for modeling kinetic systems
Application of data analysis techniques, including maximum likelihood estimators, the bootstrap method, and tests of statistical significance
Course Availability
The course schedule is displayed for planning purposes – courses can be modified, changed, or cancelled. Course availability will be considered finalized on the first day of open enrollment. For quarterly enrollment dates, please refer to our graduate education section.