Difference between revisions of "Template:Bigmath/doc"

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imported>Cedar101
m (→‎Examples: replace <code><nowiki> to <source>)
imported>BetterMath
m (grammar)
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In contrast, there is <source lang="tex"><math display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0</math></source> which produces
 
In contrast, there is <source lang="tex"><math display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0</math></source> which produces
 
<math forcemathmode=mathml display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0.</math>
 
<math forcemathmode=mathml display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0.</math>
This might be an alternative for more complex examples. If that's still to small, leave a comment on https://phabricator.wikimedia.org/T135419 please.
+
This might be an alternative for more complex examples. If that's still too small, leave a comment on https://phabricator.wikimedia.org/T135419 please.
  
 
=== See also ===
 
=== See also ===

Revision as of 09:15, 9 May 2017

Usage

Use this template to embed stand-alone formulae in wikitext. The mathematical capabilities of this template are very limited; use tables with class="texhtml" for formulae requiring non-linear layout.

Examples

{{bigmath|{{sfrac|&part;&sup2;<var>f</var>|&part;<var>r</var>&sup2;}} + {{sfrac|&part;<var>f</var>|<var>r</var> &part;<var>r</var>}} + {{sfrac|&part;&sup2;<var>f</var>|<var>r</var>&sup2;&part;&sup2;<var>&theta;</var>}} {{=}} 0}}

produces:

Template:Sfrac + Template:Sfrac + Template:Sfrac = 0

Use prefix "1=" to allow simple equals-signs. Italicize letters by double-tic (''f''):

{{bigmath|1={{sfrac|&part;&sup2; ''f''|&part;''r''&sup2;}} + {{sfrac
|&part;''f''|''r'' &part;''r''}} = 0}}

produces:

Template:Sfrac + Template:Sfrac = 0

Note that any extra spaces placed in the template will appear in the output. A long line can be split before any vertical-bar pipe ('|').

In contrast, there is

<math display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0</math>

which produces

<math forcemathmode=mathml display=block>\frac{\part^2 f}{\part r^2} + \frac{\part f}{\part r} = 0.</math> This might be an alternative for more complex examples. If that's still too small, leave a comment on https://phabricator.wikimedia.org/T135419 please.

See also