TimeIndependentSchrodingerEquation 2006-01-04 23:02:45 2006-01-04 23:02:45 Definition % this is the default PlanetMath preamble. as your knowledge % of TeX increases, you will probably want to edit this, but % it should be fine as is for beginners. % almost certainly you want these \usepackage{amssymb} \usepackage{amsmath} \usepackage{amsfonts} % used for TeXing text within eps files %\usepackage{psfrag} % need this for including graphics (\includegraphics) %\usepackage{graphicx} % for neatly defining theorems and propositions %\usepackage{amsthm} % making logically defined graphics %\usepackage{xypic} % there are many more packages, add them here as you need them % define commands here The Schr\"odinger equation can be a little intimidating the first time you see it. One wonders where to begin mathematically and what physical situations to work with. In mechanics, we always seem to begin with simple examples such as a ball dropping from a building, while ignoring things like drag. So where do we start with the Schr\"odinger equation? Mathematically, it is an equation we want to solve for a general solution. However, berfore we can find a general solution, we need to define a potential function. Clearly, we want a potential that means something to us physically and at the same time be able to find an analytical solution. Choosing a potential function that is independent of time lets us accomplish this goal.