MIT / Science / Chemistry
Lecture : Lecture 34
By Robert Field | Small Molecule Spectroscopy and Dynamics
Lecture 34 of 37
Rate this lecture -
Add to My Courses
   
More Lectures -
 
Course Description
The goal of this course is to illustrate the spectroscopy of small molecules in the gas phase: quantum mechanical effective Hamiltonian models for rotational, vibrational, and electronic structure; transition selection rules and relative intensities; diagnostic patterns and experimental methods for the assignment of non-textbook spectra; breakdown of the Born-Oppenheimer approximation (spectroscopic perturbations); the stationary phase approximation; nondegenerate and quasidegenerate perturbation theory (van Vleck transformation); qualitative molecular orbital theory (Walsh diagrams); the notation of atomic and molecular spectroscopy.
Courses Index
1 : General Chemistry   (Heino NITSCHE / Berkeley)
2 : Chemical Structure and Reactivity   (K. Peter VOLLHARDT / Berkeley)
3 : Principles of Chemical Science   (Catherine Drennan / MIT)
4 : Principles of Chemical Science I   (Sylvia Ceyer / MIT)
5 : Thermodynamics and Kinetics   (Keith Nelson / MIT)
6 : Introductory Quantum Mechanics II   (Robert Field / MIT)
7 : Digital Lab Techniques Manual   (Kimberly Berkowski / MIT)
8 : Freshman Organic Chemistry   (J. Michael McBride / Yale)
9 : Chemistry 1A, 001   (Jerzy Wrobel / Berkeley)
10 : Chemistry Laboratory Techniques   (Multiple Instructors / MIT)
11 : Organic Reactions and Pharmaceuticals   (Steven Hardinger / UCLA)
12 : Organic Chemistry   (James Nowick / UC Irvine)