We're sorry but this page doesn't work properly without JavaScript enabled. Please enable it to continue.
Feedback

Lecture 13. Hydrogen Atoms

Formal Metadata

Title
Lecture 13. Hydrogen Atoms
Subtitle
Radial Functions and Solutions of the Time-Independent Schröinger Equation
Alternative Title
Lecture 13. Quantum Principles: Hydrogen Atoms
Title of Series
Part Number
13
Number of Parts
28
Author
License
CC Attribution - ShareAlike 4.0 International:
You are free to use, adapt and copy, distribute and transmit the work or content in adapted or unchanged form for any legal purpose as long as the work is attributed to the author in the manner specified by the author or licensor and the work or content is shared also in adapted form only under the conditions of this
Identifiers
Publisher
Release Date2014
LanguageEnglish

Content Metadata

Subject Area
Genre
Abstract
UCI Chem 131A Quantum Principles (Winter 2014) Instructor: A.J. Shaka, Ph.D 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. Index of Topics: 0:00:57 The Radial Functions 0:07:12 The Rydberg Constant 0:13:39 The Bohr Radius 0:22:54 Notation 0:26:55 The Wavefunctions 0:31:59 Radial Nodes 0:36:44 Integrating Wavefunctions