Difference between revisions of "Help:Math"

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==Intro==
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==LaTeX==
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You can enter LaTeX equations by enclosing them in <nowiki><math>...</math></nowiki> tags. This uses the [http://www.mediawiki.org/wiki/Extension:Math Math extension]. For LaTeX math help, see:
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* [http://www.latex-project.org/guides/ LaTeX documentation]
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** [http://ctan.tug.org/tex-archive/info/lshort/english/lshort.pdf The Not so Short Introduction to LaTex] - with a very complete chapter on typesetting mathematical formulas
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===Examples===
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<nowiki><math>\sqrt[3]{a x + x^2}</math></nowiki> produces <math>\sqrt[3]{a x + x^2}</math>
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The acceleration of a solar sail due to solar pressure <math>\vec a_s</math> given the position vector from the sun to the sail <math>\vec r_s</math> is:
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<math>\vec a_s = a_c {AU^2 \over r_s^2} \left(\vec r_s \cdot \vec n\right)^2 \vec n</math>
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where <math>a_c</math> is max sail acceleration at Earth's distance from the sun (1 AU), <math>AU</math> is the length of an astronomical unit, <math>r_s</math> is the magnitude of <math>\vec r_s</math>, and <math>\vec n</math> is the unit vector normal to the sail surface.
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==Mimetex==
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''Deprecated. Please follow LaTeX instructions from now on.''
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Mathematics can be displayed on SolarSailWiki using the [http://www.forkosh.com/mimetex.html Mimetex] program, which uses a subset of the [http://www.latex-project.org/ LaTeX] math formulas.
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All you need to do is enclose a valid TeX/LaTeX formula inside <nowiki><tex>...</tex></nowiki> tags.
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Formulas will be rendered as GIF images.
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* [http://www.forkosh.com/mimetexmanual.html Mimetex documentation]
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* [http://www.latex-project.org/guides/ LaTeX documentation]
 +
** [http://ctan.tug.org/tex-archive/info/lshort/english/lshort.pdf The Not so Short Introduction to LaTex] - with a very complete chapter on typesetting mathematical formulas
 +
 
 +
Some examples:
 +
 
 +
<nowiki><tex>\sqrt[3]{a x + x^2}</tex></nowiki> produces <tex>\sqrt[3]{a x + x^2}</tex>
 +
 
 +
The acceleration of a solar sail due to solar pressure <tex>\vec a_s</tex> given the position vector from the sun to the sail <tex>\vec r_s</tex> is:
 +
 
 +
<tex>\vec a_s = a_c {AU^2 \over r_s^2} \(\vec r_s \cdot \vec n\)^2 \vec n</tex>
 +
 
 +
where <tex>a_c</tex> is max sail acceleration at Earth's distance from the sun (1 AU), <tex>AU</tex> is the length of an astronomical unit, <tex>r_s</tex> is the magnitude of <tex>\vec r_s</tex>, and <tex>\vec n</tex> is the unit vector normal to the sail surface.
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<!--
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==ASCIIMath Not Currently in Use==
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For the time being, ASCIIMath can be used, but MathML won't be properly displayed because of an incompatibility with Internet Explorer without MathPlayer installed.
  
 
Mathematics can be displayed on SolarSailWiki pages using the PHP version of [http://www.jcphysics.com/ASCIIMath/ ASCIIMath].
 
Mathematics can be displayed on SolarSailWiki pages using the PHP version of [http://www.jcphysics.com/ASCIIMath/ ASCIIMath].
Line 41: Line 81:
  
 
where <am>a_c</am> is max sail acceleration at Earth's distance from the sun (1 AU), <am>AU</am> is the length of an astronomical unit, <am>r_s</am> is the magnitude of <am>vec r_s</am>, and <am>vec n</am> is the unit vector normal to the sail surface.
 
where <am>a_c</am> is max sail acceleration at Earth's distance from the sun (1 AU), <am>AU</am> is the length of an astronomical unit, <am>r_s</am> is the magnitude of <am>vec r_s</am>, and <am>vec n</am> is the unit vector normal to the sail surface.
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-->

Latest revision as of 10:32, 11 June 2012

LaTeX

You can enter LaTeX equations by enclosing them in <math>...</math> tags. This uses the Math extension. For LaTeX math help, see:

Examples

<math>\sqrt[3]{a x + x^2}</math> produces \sqrt[3]{a x + x^2}

The acceleration of a solar sail due to solar pressure \vec a_s given the position vector from the sun to the sail \vec r_s is:

\vec a_s = a_c {AU^2 \over r_s^2} \left(\vec r_s \cdot \vec n\right)^2 \vec n

where a_c is max sail acceleration at Earth's distance from the sun (1 AU), AU is the length of an astronomical unit, r_s is the magnitude of \vec r_s, and \vec n is the unit vector normal to the sail surface.

Mimetex

Deprecated. Please follow LaTeX instructions from now on.

Mathematics can be displayed on SolarSailWiki using the Mimetex program, which uses a subset of the LaTeX math formulas. All you need to do is enclose a valid TeX/LaTeX formula inside <tex>...</tex> tags. Formulas will be rendered as GIF images.

Some examples:

<tex>\sqrt[3]{a x + x^2}</tex> produces \sqrt[3]{a x + x^2}

The acceleration of a solar sail due to solar pressure \vec a_s given the position vector from the sun to the sail \vec r_s is:

\vec a_s = a_c {AU^2 \over r_s^2} \(\vec r_s \cdot \vec n\)^2 \vec n

where a_c is max sail acceleration at Earth's distance from the sun (1 AU), AU is the length of an astronomical unit, r_s is the magnitude of \vec r_s, and \vec n is the unit vector normal to the sail surface.