Go to most recent revision | Details | Last modification | View Log | RSS feed
| Rev | Author | Line No. | Line |
|---|---|---|---|
| 23 | reyssat | 1 | |
| 2 | <h3>How to write mathematical formulas in your exercises.</h3> |
||
| 3 | |||
| 4 | You may embed mathematical symbols and formulas into the statement (when it |
||
| 5 | is of html format), hint and solution. |
||
| 6 | <p> |
||
| 7 | If you simply want to insert some mathematical symbols or greek letters, |
||
| 8 | you just need to type a <tt>\</tt> followed by the name of |
||
| 9 | the symbol or greek letter (if you haven't used this name in your parameter |
||
| 10 | definitions). For example, <tt>\pi</tt> gives you $m_pi, |
||
| 11 | <tt>\le</tt> gives $m_le, <tt>\pm</tt> gives $m_pm, <tt>\rightarrow</tt> gives |
||
| 12 | $m_rightarrow, etc. The names of the symbols follow the standard TeX |
||
| 13 | convention. Here is a |
||
| 14 | !href target=wims_help module=help/wimsdoc.en&subject=mathfonts#mathfonts list of mathematical symbols and their names |
||
| 15 | (replace <tt>$$m_</tt> by <tt>\</tt> in the names). |
||
| 16 | <p> |
||
| 17 | More generally, to insert a whole mathematical formula, you |
||
| 18 | can type the formula in the usual way as if you enter it into any |
||
| 19 | mathematical software or any computational tool under WIMS. In order to make |
||
| 20 | the formula formatted and shown beautifully, you have |
||
| 21 | only to enclose it in a pair of parentheses preceded by a backslash \. For |
||
| 22 | example, <tt>\(x^3-3x+cos(2pi*x)^5)</tt> gives you |
||
| 23 | !insmath x^3-3*x+cos(2pi*x)^5 |
||
| 24 | , or <tt>\(sqrt(x^2+y^2))</tt> gives you |
||
| 25 | !insmath sqrt(x^2+y^2) |
||
| 26 | . You can type <tt>\(integrate(x^2+1)dx)</tt> for |
||
| 27 | !insmath integrate(x^2+1)*dx |
||
| 28 | , or <tt>\(integrate(exp(x^2+1),x=1..infinity))</tt> for |
||
| 29 | !insmath integrate(exp(x^2+1),x=1..infinity) |
||
| 30 | . You can also write the sum |
||
| 31 | !insmath sum(1/n^2,n=1..infinity) |
||
| 32 | using <tt>\(sum(1/n^2,n=1..infinity)</tt>, or the product |
||
| 33 | !insmath product(n/(n+1),n=1..infinity) |
||
| 34 | using <tt>\(product(n/(n+1),n=1..infinity)</tt>. |
||
| 35 | <p> |
||
| 36 | More helps on how to enter mathematical expressions are in |
||
| 37 | !href target=wims_help module=help/main&chapter=1&open=1_math#math this page |
||
| 38 | . |
||
| 39 | <p> |
||
| 40 | To show a matrix |
||
| 41 | !insmath [1,2,3;4,5,6;7,8,9] |
||
| 42 | , you should type <tt>\([1,2,3;4,5,6;7,8,9])</tt>. Nested matrices are |
||
| 43 | accepted (and will be rendered correctly). |
||
| 44 | <p> |
||
| 45 | For experts in TeX or LaTeX, please notice that whenever the software sees a formula |
||
| 46 | enclosed in a pair of parentheses preceded by <tt>\</tt> which contains |
||
| 47 | backslashes, it will interpret it as a TeX source, and will directly try to |
||
| 48 | format it by TeX. This will allow you to write very sophisticated formulas if |
||
| 49 | you know how to write them in the TeX way. |
||
| 50 | <p> |
||
| 51 | And the most complete way to use TeX in your exercise is to choose |
||
| 52 | !href cmd=help&special_parm=format TeX format |
||
| 53 | (for the statement only). |