|
|
|
last edited 2 years ago by test1 |
Edit detail for FriCASTutorial revision 7 of 10
| 1 2 3 4 5 6 7 8 9 10 | ||
|
Editor: test1
Time: 2015/06/08 17:04:36 GMT+0 |
||
| Note: | ||
changed: -The link to the tutorial by Martin N. Dunstan doesn't work (http://www.dcs.st-andrews.ac.uk/~mnd/documentation/axiom_tutorial). I can't find this tutorial elsewhere. The link to the tutorial by Martin N. Dunstan doesn't work (http://www.dcs.st-andrews.ac.uk/~mnd/documentation/axiom_tutorial).
Most introductory material about Axiom applies to FriCAS?. The [Axiom Volume 1]?: Tutorial is available in printed format at http://publish-book.com and http://www.lulu.com/product/file-download/axiom-volume-1-tutorial/243127
- There is a good introduction to Axiom by Martin N. Dunstan, in English, at http://www.dcs.st-andrews.ac.uk/~mnd/documentation/axiom_tutorial (Alternate link: TutorialIntroductionToAxiom? )
- a complete introduction to Axiom by Daniel Augot, en Français, is available at http://www-rocq.inria.fr/codes/Daniel.Augot/axiom_intro.pdf
- an Axiom tutorial and a collection of exercises by Christophe Conil and Quentin Carpent at http://pages.saclay.inria.fr/daniel.augot/documents/axiom_intro.pdf (local copy http://axiom-wiki.newsynthesis.org/public/axiom/) (released under CC-BY-SA )
- and a blog by Alasdair McAndrew containing an excellent introduction to Axiom.
- Extending the FriCAS? library is done in the programming language SPAD. Find introductory material on the page ProgrammingSPAD?.
A Quick Tutorial
On this web site you can enter FriCAS? commands and see the output in proper mathematical form. These commands can also be typed directly into FriCAS? installed on your own computer.
You must enclose each set of FriCAS? commands in a \begin{axiom} \end{axiom} section. For example:
\begin{axiom}
[1/2, 3/4, 2/3]
\end{axiom}
When you save the changes you make to a page, FriCAS? processes the contents of each section you have marked and the FriCAS? output is displayed.
Try this command:
[1/7,3/4, 5/6]
![\label{eq1}\left[{1 \over 7}, \:{3 \over 4}, \:{5 \over 6}\right]](images/1294985933128069178-16.0px.png "\label{eq1}\left[{1 \over 7}, \:{3 \over 4}, \:{5 \over 6}\right]") | (1) |
Please feel free to play with this in the SandBox?!
Advanced Examples
Let's see if we can perform a finite window Fourier inversion.
simplify(integrate(exp(%i*_\omega*t) * exp(-%i*_\omega * _\tau),_\omega=-_\Omega .. _\Omega))
![\label{eq2}{\left(
\begin{array}{@{}l}
\displaystyle
-{i \ {{e}^{{i \ \Omega \ t}-{i \ \Omega \ \tau}}}}+
\
\
\displaystyle
{i \ {{e}^{-{i \ \Omega \ t}+{i \ \Omega \ \tau}}}}](images/293855486775524313-16.0px.png "\label{eq2}{\left(
\begin{array}{@{}l}
\displaystyle
-{i \ {{e}^{{i \ \Omega \ t}-{i \ \Omega \ \tau}}}}+
\
\
\displaystyle
{i \ {{e}^{-{i \ \Omega \ t}+{i \ \Omega \ \tau}}}}") | (2) |
Try this integrating this
2*x/sin(x)^2
 | (3) |
integrate(%,x)
 | (4) |
Now differentiate it
D(%,x)
 | (5) |
simplify(%)
 | (6) |
Expressions (3) and (6) are really that same.
simplify(%%(3) - %%(6))
 | (7) |
D(x^x,x)
 | (8) |
See, that was easy!
Here are some more things to try.
integrate(log(sin(x)),x=0..%pi)
 | (9) |
limit(sum(1/i^2,i=1..n), n=%plusInfinity)
 | (10) |
Can you explain these results?
Advanced Programming
For more details see: FriCASProgramming? .
Special FriCASWiki? Markup for Programming
Spad
To include Spad programs on web pages in this website click edit (or when adding comments or in bug reports) use:
\begin{spad}
)abbrev ...
...
\end{spad}
Aldor
To include Aldor programs on pages in this website use:
\begin{aldor}
...
\end{aldor}
or:
\begin{aldor}[name]
...
\end{aldor}
LaTeX?
You can add LaTeX? formatted equations to pages on this web site by:
$$
...
$$
and inline symbols such as 
are written like this: $\alpha +\beta$
To include arbitrary LaTeX? on pages in this website use:
\begin{latex}
...
\end{latex}
Lisp
To include Lisp programs on pages in this website use:
\begin{lisp}
...
\end{lisp}
Boot
To include Boot programs on pages in this website use:
\begin{boot}
...
\end{boot}