Friday, September 14, 2018 at Online Event via Go To Webinar
Starts at 2:00 PM · Ends at 3:00 PM, EDT (America/New_York)
September 14th @ 2:00 PM ET
Clickers can dramatically improve your students’ engagement in the classroom. But, like all teaching tools, there are more and less effective ways of incorporating them into your class. This webinar will include a brief review of the motivations for using clickers, as well as practical guidelines for ensuring their success, including writing effective questions, facilitating student discussion and choosing a grading policy that minimizes stress for you and your students. Enrollment will be limited to ensure all participants have time to ask questions and share experiences.
*NOTE: You must follow this link to register. Responding above as "going" will not register you for this event.
- Tim Stelzer
Professor & Co-Creator, iClickerProfessor Timothy Stelzer received his bachelor's degree in physics from St. John's University in 1988, and his Ph.D. in physics from the University of Wisconsin-Madison in 1993. After working as a senior research assistant in the Center for Particle Theory at Durham University (UK), he joined the Department of Physics at the University of Illinois as a postdoctoral research associate in 1995. In 1998, he was promoted to a visiting assistant research professor and to an assistant research professor in 2000.A high-energy particle theorist, Professor Stelzer has concentrated on standard model physics at hadron colliders. He has written extensively on top-quark physics and radiation in top events. In addition, he has developed computational methods that have dramatically reduced the difficulty of performing complex cross section calculations. He is the primary author of MadGraph®, a software program that automatically generates the Feynman diagrams and helicity amplitude code for tree-level standard model processes. Most recently, he has been working on a new program to predict how often rare new particles would be produced and also what signatures would distinguish these new particles from the large background of particles already known. He has developed a novel multi-channel approach that efficiently integrates any scattering amplitude to obtain the cross section of any desired process.
Online Event via Go To Webinar