The most widespread format for scientific documents teeming with formulas is TeX.
It is a programming language. The most widespread sublanguage is LaTeX.
The output of modern tex-compilers is pdf-file (other formats include dvi, ps).
For more information refer to Library.
Local resources are here.
See also course Practical guide for LaTeX.
For quick start use these templates.
See also my localtexmf folder.
For quick guide of what typesetting tool to use see here.
The full power of TeX is revealed in innumerable number of packages. Here are some of them (note that most of the links here are to a local miktex folder):
- LaTeX core:
refman [pdf] [htm],
cyrillic [fold, see also babel]
- Core packages:
- hyperref – hypertext marks in LaTeX:
- Nontrivial formats:
- TeXworks – default for MiKTeX, see MiKTeX installation instructions
- TeXnicCenter 2.02 – version 1 has poor syntax-highlighting capabilities and does not support lines wrapping
- WinEdt 9 (shareware) – not much better than freeware programs
- WinShell 3.32
- Scientific Word 5.5 (commercial) – WYSIWYG program for generating tex-documents.
The resulting tex-documents look rather rude and should be modified before being compiled.
For cyrillic text one must convert Unicodes to ASCII symbols, which can be done by SWconv2 program.
Essential bug: sometimes Undo command does not work so if you accidentally delete some text there will be no way to recover it.
- MathType 6.9 (commercial) – WYSIWYG equation editor producing output in TeX, Microsoft-doc, MathML
- A commonly used format for scientific vector graphics is Postscript ("ps" or "eps") by Adobe.
It is a programming language. The code of ps-files can be edited manually or generated by some programs.
GSview 5.0 is a good ps-viewer, it requires Ghostscript to be installed.