Wiki formatting

Revision as of 12:04, 9 May 2011 (view source)

Hayes (Talk | contribs)

(cleaned up runoff of preformatted text.)

← Older edit

Latest revision as of 10:54, 14 August 2011 (view source)

Gosia (Talk | contribs)

(→Latex math)

Line 40:

</pre>

-

Each formula is rendered into a ~~PNG image:~~

+

Each formula is rendered either as HTML for simple formulas that can be typed into a single line

<math>\Delta I = ^-2</math>

Line 46:

-

~~At the moment, only simple~~ formulas ~~are correctly rendered by the Wiki~~. ~~Complex equations can be entered in two ways~~.

+

or into a PNG image for complex formulas, e.g. involving fractions.

-

~~Either create an image file on your local system and upload it using 'Upload file' in the toolbox at the left~~:

+

Formatting of complex equations has been fixed (August 2011). The wiki will now render nearly any proper Latex formula. Examples:

<pre>

-

[~~[Image:Adiabaticity definition.png~~ |~~frameless~~|~~500px~~|x]]

+

<math>

+

\langle I_f\|E2\| I_i\rangle=\biggl[-\beta_f\langle I_f K=5\|+\alpha_f\langle I_f K=6\|\biggr]\widehat{E2}

+

\biggl[\alpha_i\|I_i K=5\rangle+\beta_i\|I_i K=6\rangle\biggr]=

+

</math>

+

<math>

+

-\alpha_i\beta_f\langle I_f K=5\| E2\| I_i K=5\rangle+\alpha_f\beta_i\langle I_f K=6\| E2\| I_i K=6\rangle

+

</math>

+

<math>

+

-\beta_i\beta_f\langle I_f K=5\| E2\| I_i K=6\rangle+\alpha_i\alpha_f\langle I_f K=6\| E2\| I_i K=5\rangle

+

</math>

</pre>

-

[~~[Image:Adiabaticity definition.png~~ |~~frameless~~|~~500px~~|x]]

+

<math>

-

+

\langle I_f\|E2\| I_i\rangle=\biggl[-\beta_f\langle I_f K=5\|+\alpha_f\langle I_f K=6\|\biggr]\widehat{E2}

-

~~or use () generously and enclose only the deepest-level pieces in~~ <tt><math></math></tt>:

+

\biggl[\alpha_i\|I_i K=5\rangle+\beta_i\|I_i K=6\rangle\biggr]=

+

</math>

+

<math>

+

-\alpha_i\beta_f\langle I_f K=5\| E2\| I_i K=5\rangle+\alpha_f\beta_i\langle I_f K=6\| E2\| I_i K=6\rangle

+

</math>

+

<math>

+

-\beta_i\beta_f\langle I_f K=5\| E2\| I_i K=6\rangle+\alpha_i\alpha_f\langle I_f K=6\| E2\| I_i K=5\rangle

+

</math>

<pre>

-

<math>\~~xi_~~{~~kn}</math> =~~

+

<math>

-

~~((<math>Z_1 Z_2 A_1</math><math>~~^{1/2}~~</math>)/6.34977)~~

+

f(x)=\frac{\int_a^b e^{-x^2} dx}{\frac{x}{x+\frac{1}{x+2}}}

-

~~(1/(<math>E_p - s E_k</math>)<math>^~~{1/2}~~</math> -~~

+

</math>

-

~~1/(<math>E_p - s E_n</math>)<math>^~~{1/2}</math>)

+

</pre>

-

<math>\~~xi_~~{~~kn}</math> = ((<math>Z_1 Z_2 A_1</math><math>~~^{1/2}~~</math>)/6.34977) (1/(<math>E_p - s E_k</math>)<math>^~~{1/2}~~</math> - 1/(<math>E_p - s E_n</math>)<math>^~~{1/2}</math>)

+

<math>

+

f(x)=\frac{\int_a^b e^{-x^2} dx}{\frac{x}{x+\frac{1}{x+2}}}

+

</math>

==Footnoting==

Wiki formatting

From GOSIA

Latest revision as of 10:54, 14 August 2011

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@@ Line 40: / Line 40: @@
 </pre>
-Each formula is rendered into a PNG image:
+Each formula is rendered either as HTML for simple formulas that can be typed into a single line
 <math>\Delta I = ^-2</math>
@@ Line 46: / Line 46: @@
 <math>\xi=1.4</math>
-At the moment, only simple formulas are correctly rendered by the Wiki.  Complex equations can be entered in two ways.
+or into a PNG image for complex formulas, e.g. involving fractions.
-Either create an image file on your local system and upload it using 'Upload file' in the toolbox at the left:
+Formatting of complex equations has been fixed (August 2011).  The wiki will now render nearly any proper Latex formula.  Examples:
 <pre>
-[[Image:Adiabaticity definition.png |frameless|500px|x]]
+<math>
+\langle I_f\|E2\| I_i\rangle=\biggl[-\beta_f\langle I_f K=5\|+\alpha_f\langle I_f K=6\|\biggr]\widehat{E2}
+\biggl[\alpha_i\|I_i K=5\rangle+\beta_i\|I_i K=6\rangle\biggr]=
+</math>
+<math>
+-\alpha_i\beta_f\langle I_f K=5\| E2\| I_i K=5\rangle+\alpha_f\beta_i\langle I_f K=6\| E2\| I_i K=6\rangle
+</math>
+<math>
+-\beta_i\beta_f\langle I_f K=5\| E2\| I_i K=6\rangle+\alpha_i\alpha_f\langle I_f K=6\| E2\| I_i K=5\rangle
+</math>
 </pre>
-[[Image:Adiabaticity definition.png |frameless|500px|x]]
+<math>
+\langle I_f\|E2\| I_i\rangle=\biggl[-\beta_f\langle I_f K=5\|+\alpha_f\langle I_f K=6\|\biggr]\widehat{E2}
-or use () generously and enclose only the deepest-level pieces in <tt><math></math></tt>:
+\biggl[\alpha_i\|I_i K=5\rangle+\beta_i\|I_i K=6\rangle\biggr]=
+</math>
+<math>
+-\alpha_i\beta_f\langle I_f K=5\| E2\| I_i K=5\rangle+\alpha_f\beta_i\langle I_f K=6\| E2\| I_i K=6\rangle
+</math>
+<math>
+-\beta_i\beta_f\langle I_f K=5\| E2\| I_i K=6\rangle+\alpha_i\alpha_f\langle I_f K=6\| E2\| I_i K=5\rangle
+</math>
 <pre>
-<math>\xi_{kn}</math> =
+<math>
-((<math>Z_1 Z_2 A_1</math><math>^{1/2}</math>)/6.34977)
+f(x)=\frac{\int_a^b e^{-x^2} dx}{\frac{x}{x+\frac{1}{x+2}}}
-(1/(<math>E_p - s E_k</math>)<math>^{1/2}</math> -
+</math>
-/(<math>E_p - s E_n</math>)<math>^{1/2}</math>)
 </pre>
-<math>\xi_{kn}</math> =  ((<math>Z_1 Z_2 A_1</math><math>^{1/2}</math>)/6.34977)  (1/(<math>E_p - s E_k</math>)<math>^{1/2}</math> - 1/(<math>E_p - s E_n</math>)<math>^{1/2}</math>)
+<math>
+f(x)=\frac{\int_a^b e^{-x^2} dx}{\frac{x}{x+\frac{1}{x+2}}}
+</math>
 ==Footnoting==