Ferdinand Baer
Author
Series
Atmospheric science paper volume no. 108
Publisher
Colorado State University, Department of Atmospheric Science
Pub. Date
1967.
Language
English
Description
It is shown that a general class of nonlinear partial differential equations -- including those frequently used in predicting atmospheric motions -- can be converted to computational form by either the "finite difference" or "spectral" method to yield formally identical equations.
Author
Series
Atmospheric science paper volume no. 129
Publisher
Colorado State University, Department of Atmospheric Science
Pub. Date
1968.
Language
English
Description
The present study is designed to provide both a method whereby the details of the nonlinear exchange process which occurs in the atmosphere may be considered in a simplified form, and also to indicate from some calculations the complexity of those exchanges.
Author
Series
Atmospheric science paper volume no. 131
Publisher
Department of Atmospheric Science, Colorado State University
Pub. Date
1968.
Language
English
Description
A general numerical integration formula is presented which generates many of the commonly used one-dimensional finite-difference schemes.