filmov
tv
Chem 131A. Lec 22. Quantum Principles: The Born-Oppenheimer Approximation and H2+
Показать описание
UCI Chem 131A Quantum Principles (Winter 2014)
Lec 22. Quantum Principles -- The Born-Oppenheimer Approximation and H2+ --
Instructor: A.J. Shaka, Ph.D
License: Creative Commons BY-NC-SA
Description: This course provides an introduction to quantum mechanics and principles of quantum chemistry with applications to nuclear motions and the electronic structure of the hydrogen atom. It also examines the Schrödinger equation and study how it describes the behavior of very light particles, the quantum description of rotating and vibrating molecules is compared to the classical description, and the quantum description of the electronic structure of atoms is studied.
This video is part of a 28-lecture undergraduate-level course titled "Quantum Principles" taught at UC Irvine by A.J. Shaka, Ph.D.
Recorded on March 03, 2014.
Index of Topics:
0:01:03 The Born-Oppenheimer Approximation
0:09:52 The Electronic Hamiltonian
0:11:06 Potential Surfaces
0:12:43 H2+
0:22:43 Variational Approach for H2+
0:41:04 Back to H2+
Lec 22. Quantum Principles -- The Born-Oppenheimer Approximation and H2+ --
Instructor: A.J. Shaka, Ph.D
License: Creative Commons BY-NC-SA
Description: This course provides an introduction to quantum mechanics and principles of quantum chemistry with applications to nuclear motions and the electronic structure of the hydrogen atom. It also examines the Schrödinger equation and study how it describes the behavior of very light particles, the quantum description of rotating and vibrating molecules is compared to the classical description, and the quantum description of the electronic structure of atoms is studied.
This video is part of a 28-lecture undergraduate-level course titled "Quantum Principles" taught at UC Irvine by A.J. Shaka, Ph.D.
Recorded on March 03, 2014.
Index of Topics:
0:01:03 The Born-Oppenheimer Approximation
0:09:52 The Electronic Hamiltonian
0:11:06 Potential Surfaces
0:12:43 H2+
0:22:43 Variational Approach for H2+
0:41:04 Back to H2+