[1] Kai Gehrs and Frank Postel. MuPAD - Eine praktische Einführung. http://schule.mupad.de/literatur/m1xa/band-1.
[ bib | .pdf ]
[2] Literatur zu mupad. http://schule.mupad.de/literatur/index.shtml.
[ bib | http ]
[3] MuPAD Grundkurs. http://schule.mupad.de/material/grundkurs/index.html.
[ bib | .html ]
[4] GNUPlot Tutorial.
[ bib | .pdf ]
[5] GNUPlot Reference Card.
[ bib | .pdf ]
[6] GNUPlot Documentation.
[ bib | .pdf ]
[7] Bronstein, Semendjajew, Musiol, and Mühlig. Taschenbuch der Mathematik. Verlag Harri Deutsch AG.
[ bib ]
[8] Volker Mehrmann.
[ bib ]
[9] Stephane Del Pino and Olivier Pironneau. ff3d Documentation.
[ bib | .pdf ]
[10] deal.ii Tutorial.
[ bib | .html ]
[11] FEMlab Manual.
[ bib ]
[12] W. H. Press, S. A. Teukolsky, W. T Vetterling, and B. P. Flannery. Numerical Recipes in C. Cambridge.
[ bib ]
[13] Jens-Peer Kuska. Mathematica und C in der modernen Theoretischen Physik.
[ bib | http ]
[14] Introduction to Scilab - User's Guide.
[ bib | .pdf ]
[15] Introduction to Scilab.
[ bib | .pdf ]
[16] SymbolicNet.
[ bib | http ]
[17] YACAS Tutorial and Examples.
[ bib | .html ]
[18] Matlab primer.
[ bib | .pdf ]
[19] JACAL Manual.
[ bib | .html ]
[20] Maxima Manual.
[ bib | .pdf ]
[21] F. Stummel and K. Hainer. Praktische Mathematik. Teubner, 1971.
[ bib ]
[22] M.P. Allen and D.J. Tildesley. Computer Simulation of Liquids. Oxford, 1987.
[ bib ]
[23] Stephan Kaufmann. Mathematica als Werkzeug. Birkhäuser Verlag, Basel, 1992.
[ bib | .html ]
[24] Lloyd Fosdick. Molecular Dynamics: An Introduction. 1995.
[ bib | .html | .ps ]
[25] Rupert Faltermeier. Maplescript. 1996.
[ bib | .ps ]
[26] K. Binder and D.W. Heerman. Monte Carlo Simulation in Statistical Physics. Springer, 1997.
[ bib ]
[27] John W. Eaton. GNU Octave. 1997.
[ bib | .pdf ]
[28] Plato. Skript zur Praktischen Mathematik I. TU Berlin, 1999.
[ bib ]
[29] Maple Tutorial. 1999.
[ bib | .pdf ]
[30] J.M. Thijssen. Computational Physics. Cambridge Univ. Press, 1999.
[ bib ]
[31] Plato. Numerische Mathematik kompakt - Grundlagenwissen für Studium und Praxis. Vieweg, 2000.
[ bib ]
[32] Peter Knabner. Numerik partieller Differentialgleichungen. Springer, 2000.
[ bib ]
[33] F. Hecht and O. Pironneau. Freefem+ Tutorial. 2000.
[ bib | .pdf ]
[34] Thorsten Arndt. Skript zum Astrophysikalischen Praktikum 2 (Numerikum). Institut für Astronomie und Astrophysik, TU Berlin, Berlin, 2000.
[ bib ]
[35] Bollhöfer. Numerische Behandlung partieller Differentialgleichungen. Institut für Mathematik, TU Berlin, 2001.
[ bib | .pdf.gz ]
[36] Rainer von Seggern. Finite Elemente in Scilab: Das Lösen partieller Differentialgleichungen mit Hilfe der FreeFEM-Toolbox. FORSCHUNGSZENTRUM JÜLICH GmbH, 2001.
[ bib | .pdf ]
[37] Olivier Pironneau and Christophe Prud'homme. FreeFEM User Manual. 2001.
[ bib | http ]
[38] Hobert Selhofer. Einführung in GNU Octave. 2001.
[ bib | .pdf ]
[39] S. Larsson and V. Thomee. Partial Differential Equations with Numerical Methods. Springer, 2003.
[ bib ]
[40] H. P. Langtangen. Computational Partial Differential Equations. Springer, 2003.
[ bib ]
[41] Andreas Stahel. A FEM Algorithm in Octave. 2003.
[ bib | .pdf ]
[42] Stephen Wolfram. The Mathematica Book. B&T, 2003.
[ bib ]
[43] Peter Hunter. FEM/BEM Notes. University of Oakland, New Zealand, 2003.
[ bib | .pdf ]
[44] H. P. Langtangen. Python Scripting for Computational Science. Springer, 2004.
[ bib ]
[45] F. Hecht and O. Pironneau. Freefem++ Manual. 2004.
[ bib | .pdf ]
[46] Fastflo Tutorial Guide. 2004.
[ bib ]
[47] FlexPDE User Guide V4. PDE Solutions Inc., 2004.
[ bib ]
[48] Hans Blersch. Mathematica: Einführung und Programmierung. PC-Pool der Physikalischen Institute, TU Berlin, 2004. Skript zum PC-Pool-Kurs Mathematica.
[ bib | http | .pdf ]
[49] Paulo Ney de Souza, Richard J. Fateman, Joel Moses, and Cliff Yapp. The Maxima Book. 2004.
[ bib | .pdf ]
[50] Günther Gramlich. Eine Einführung in MATLAB. Fachbereich Grundlagen, Fachhochschule Ulm, Ulm, 2005.
[ bib | .pdf ]

This file has been generated by bibtex2html 1.52