$$
\newcommand{\half}{\frac{1}{2}}
\newcommand{\tp}{\thinspace .}
\newcommand{\uex}{{u_{\small\mbox{e}}}}
\newcommand{\normalvec}{\boldsymbol{n}}
\newcommand{\Oof}[1]{\mathcal{O}(#1)}
\newcommand{\x}{\boldsymbol{x}}
\renewcommand{\v}{\boldsymbol{v}}
\newcommand{\acc}{\boldsymbol{a}}
\newcommand{\rpos}{\boldsymbol{r}}
\newcommand{\e}{\boldsymbol{e}}
\newcommand{\F}{\boldsymbol{F}}
\newcommand{\ii}{\boldsymbol{i}}
\newcommand{\jj}{\boldsymbol{j}}
\newcommand{\ir}{\boldsymbol{i}_r}
\newcommand{\ith}{\boldsymbol{i}_{\theta}}
$$
Finite Difference Computing for Oscillatory Phenomena
Hans Petter Langtangen [1, 2]
Svein Linge [3, 1]
[1] Center for Biomedical Computing, Simula Research Laboratory
[2] Department of Informatics, University of Oslo
[3] Department of Process, Energy and Environmental Technology, University College of Southeast Norway
Jul 14, 2016
© 2016, Hans Petter Langtangen, Svein Linge. Released under CC Attribution 4.0 license