Material Detail

Lecture 37 -  Potential Energy Surfaces, Transition State Theory and Reaction Mechanism

Lecture 37 - Potential Energy Surfaces, Transition State Theory and Reaction Mechanism

This video was recorded at CHEM 125 - Freshman Organic Chemistry. Overview: After discussing the statistical basis of the law of mass action, the lecture turns to developing a framework for understanding reaction rates. A potential energy surface that associates energy with polyatomic geometry can be realized physically for a linear, triatomic system, but it is more practical to use collective energies for starting material, transition state, and product, together with Eyring theory, to predict rates. Free-radical chain halogenation provides examples of predicting reaction equilibria and rates from bond dissociation energies. The lecture concludes with a summary of the semester's topics from the perspective of physical-organic chemistry. Problem sets/Reading assignment: Reading assignments,... Show More

Quality

  • Editor Reviews
  • User Rating
  • Comments
  • Learning Exercises
  • Bookmark Collections
  • Course ePortfolios
  • Accessibility Info

More about this material

Comments

Log in to participate in the discussions or sign up if you are not already a MERLOT member.
hidden