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Moodle TeX Filter Glossary


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C

:
  • General syntax for symbols with a kind of lower and upper limits:

\symbolname_{lowerexpression}^{upperexpression}

  • In general, there are two ways how these lower and upper expressions can be placed: centered below and above the symbol or in a subscript / superscript manner. In the first case the symbol name is preceded by the word "big", in the second there is no prefix.
  • Syntax for the contour integral symbol:

$$\bigoint_{0}^{\infty}$$   gives  

\bigoint_{0}^{\infty}

and

$$\oint_{0}^{\infty}$$   gives 

\oint_{0}^{\infty}

  • Use font size commands for a nicer picture:

$$\LARGE\bigoint_{\small0}^{\small\infty}$$   gives  

\LARGE\bigoint_{\small0}^{\small\infty}

and

$$\large\oint_{\small0}^{\small\infty}$$   gives 

\large\oint_{\small0}^{\small\infty}

:
  • General syntax for symbols with a kind of lower and upper limits:

\symbolname_{lowerexpression}^{upperexpression}

  • In general, there are two ways how these lower and upper expressions can be placed: centered below and above the symbol or in a subscript / superscript manner. In the first case the symbol name is preceded by the word "big", in the second there is no prefix.
  • Note: mimeTeX seems currently only to support the \bigcoprod command.
  • Syntax for coproduct symbol:

$$\bigcoprod_{i=k}^{n}$$   gives  

\bigcoprod_{i=k}^{n}

  • Use font size commands for a nicer picture:

$$\LARGE\bigcoprod_{\small{i=k}}^{\small~n}$$   gives  

\LARGE\bigcoprod_{\small{i=k}}^{\small~n}

Keyword(s):

D

:

Delimiters (parentheses, braces, brackets. ...)
CommandExampleResult

\left(... \right)

$$2\left(a+b\right)$$2~\left(a+b\right)
\left[... \right]$$\left[a^2+b^2~\right]$$\left[a^2+b^2~\right]
\left{... \right}$$\left{x^2, x^3, x^4,... \right}$$\left{x^2, x^3, x^4,... \right}
\left\langle... \right\rangle$$\left\langle a,b~\right\rangle$$\left\langle a,b~\right\rangle
\left| ... \right| $$\det\left|\array{a&b\\c&d}\right| $$\det\left|\array{a&b\\c&d}\right|
\left\| ... \right\| $$\left\|f~\right\|$$\left\|f~\right\|

\left{ ... \right.

(note the dot!)

$$f(x)=\left{{x^2, \rm~if x>-1\atop~0, \rm~else}\right.$$

(\rm switches to roman style)

f(x)=\left{{x^2, \rm~if x>-1\atop~0, \rm~else}\right.

\left.{ ... \right\}

(note the dot!)

$$\left.{{\rm~term1\atop\rm~term2}\right}=y$$\left.{{\rm~term1\atop \rm~term2}\right}=y

Note: The delimiters are automatically sizes.

:
$$\Delta$$ gives \Delta
:
$$\delta$$ gives \delta
Keyword(s):
:
$$x\div~y$$ gives x\div~y
:
  • Syntax: \left\|...\right\|
  • Exp.: $$\left\|af\right\| = \left|a\right|\left\|f\right\|$$ gives

\left\|af\right\| = \left|a\right|\left\|f\right\|

Keyword(s):

E

:
$$\epsilon$$ gives \epsilon
:
  • With two triple $'s embracing an expression you can make the filter to escape and the code itself is shown (with two embracing double $'s).
  • Ex.: $$$a^2$$$ produces $$a^2$$, i.e. prevents the filter to render it as a formula gif.
Keyword(s):
:
$$\eta$$ gives \eta

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