Subject: PmWiki

# Equation Syntax

## PmWiki.EquationSyntax History

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October 27, 2010
by -

Added lines 26-29:

Matrix:

{$$ \begin{bmatrix}2 & 3 & 5\\ 4 & 3 & z \end{bmatrix} $$}

Equation Array:

{$$ \begin{eqnarray} && \int 1 = x + C \\ && \int x = \frac{x^2}{2} + C \\ && \int x^2 = \frac{x^3}{3} + C \end{eqnarray} $$}

{$$ \begin{bmatrix}2 & 3 & 5\\ 4 & 3 & z \end{bmatrix} $$}

Equation Array:

{$$ \begin{eqnarray} && \int 1 = x + C \\ && \int x = \frac{x^2}{2} + C \\ && \int x^2 = \frac{x^3}{3} + C \end{eqnarray} $$}

June 15, 2010
by -

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Thanks for showing interest in taking your math^2 knowledge to the next level.. The following will provide a brief overview of how to insert an equation into math^2. Also examples will be provided so you can learn the tricks of the trade.

to:

Thanks for showing interest in taking your math'^2^' knowledge to the next level.. The following will provide a brief overview of how to insert an equation into math'^2^'. Also examples will be provided so you can learn the tricks of the trade.

Changed lines 8-9 from:

Two different types of equation can be inserted into math^2, one is inserted within text and looks like this: [@[++{$ ... $}++]@] . And one will be centered and padded. That one is done like this:

to:

Two different types of equation can be inserted into math'^2^', one is inserted within text and looks like this: [@[++{$ ... $}++]@] . And one will be centered and padded. That one is done like this:

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%center%''As one can see, JsMath is an extremely versatile program which will hopefully be able to fill all of math^2's needs.''

to:

%center%''As one can see, JsMath is an extremely versatile program which will hopefully be able to fill all of math'^2^''s needs.''

June 15, 2010
by -

Changed line 19 from:

%red%'''There are also multiple online equation editors for the LaTex format%% (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])'''

to:

%center%%red%'''There are also multiple online equation editors for the LaTex format%% (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])'''

June 15, 2010
by -

Changed line 19 from:

%red%'''There are also multiple online equation editors for the LaTex format (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])''~~%%~~

to:

%red%'''There are also multiple online equation editors for the LaTex format%% (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])'''

June 15, 2010
by -

Added lines 1-46:

!! How-to use JsMath and the proper equation sytax:

Thanks for showing interest in taking your math^2 knowledge to the next level.. The following will provide a brief overview of how to insert an equation into math^2. Also examples will be provided so you can learn the tricks of the trade.

!!! How to insert an equation into math^2:

Two different types of equation can be inserted into math^2, one is inserted within text and looks like this: [@[++{$ ... $}++]@] . And one will be centered and padded. That one is done like this:

[@[++{$$ ... $$}++]@]

%lframe%'''A few notes:''' The only difference between the two are the additional dollar signs ($) that show up. Also the addition symbols (+) are meant to increase the size of the equation. I normally use 1 addition symbol for equations that will be centered and 2 if it will be inside of some text (this is what i have found to look the best).

!!! Examples of equations being used:

To see how any equation is written, you can double click on the equation and an editor will appear. I have provided a few examples below and also links to many more examples for your use.

%red%'''There are also multiple online equation editors for the LaTex format (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])''%%

[+{$$ A_s = {M_u\over {øf_y(d-λ})} $$}+]

[+{$$ A = {{20000\times \theta_s}\over l^{\raise1pt 2}_s} $$}+]

[+{$$ ST = {Y_c\over {\sin \theta_s}} $$}+]

[+{$$ 1+\left(1\over 1-x^2\right)^3 $$}+]

[+{$$ p_1(n) = \lim_{m\to\infty} \sum_{\nu=0}^\infty \bigl(1-\cos^{2m}(\nu!^n\pi/n)\bigr) $$}+]

[+{$$ ρ_t = 0.0018\left(60,000\over f_y\right) > 0.0014 $$}+]

Then for inline: [++{$ \sqrt{n} \quad e^x \quad \left({\Theta\times r}\over{4e}\right) \quad {a+1\over b}\!\bigg/{c+1\over d} $}++]

'''And many more examples:'''

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook16.html | TeXbook Chapter 16]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook17.html | TeXbook Chapter 17]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook17b.html | TeXbook Chapter 17 (more)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18.html | TeXbook Chapter 18]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18b.html | TeXbook Chapter 18 (more)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18c.html | TeXbook Chapter 18 (and more...)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18x.html | TeXbook Chapter 18 (exercise)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18y.html | TeXbook Chapter 18 (commutative diagram)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/Henrici.html | And More Examples]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/examples.html | And More Examples...]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/Struik.html | And we're done...]]

%center%''As one can see, JsMath is an extremely versatile program which will hopefully be able to fill all of math^2's needs.''

Thanks for showing interest in taking your math^2 knowledge to the next level.. The following will provide a brief overview of how to insert an equation into math^2. Also examples will be provided so you can learn the tricks of the trade.

!!! How to insert an equation into math^2:

Two different types of equation can be inserted into math^2, one is inserted within text and looks like this: [@[++{$ ... $}++]@] . And one will be centered and padded. That one is done like this:

[@[++{$$ ... $$}++]@]

%lframe%'''A few notes:''' The only difference between the two are the additional dollar signs ($) that show up. Also the addition symbols (+) are meant to increase the size of the equation. I normally use 1 addition symbol for equations that will be centered and 2 if it will be inside of some text (this is what i have found to look the best).

!!! Examples of equations being used:

To see how any equation is written, you can double click on the equation and an editor will appear. I have provided a few examples below and also links to many more examples for your use.

%red%'''There are also multiple online equation editors for the LaTex format (see [[http://www.numberempire.com/texequationeditor/equationeditor.php | 1]], [[http://www.codecogs.com/latex/eqneditor.php | 2]], [[http://thornahawk.unitedti.org/equationeditor/equationeditor.php | 3]])''%%

[+{$$ A_s = {M_u\over {øf_y(d-λ})} $$}+]

[+{$$ A = {{20000\times \theta_s}\over l^{\raise1pt 2}_s} $$}+]

[+{$$ ST = {Y_c\over {\sin \theta_s}} $$}+]

[+{$$ 1+\left(1\over 1-x^2\right)^3 $$}+]

[+{$$ p_1(n) = \lim_{m\to\infty} \sum_{\nu=0}^\infty \bigl(1-\cos^{2m}(\nu!^n\pi/n)\bigr) $$}+]

[+{$$ ρ_t = 0.0018\left(60,000\over f_y\right) > 0.0014 $$}+]

Then for inline: [++{$ \sqrt{n} \quad e^x \quad \left({\Theta\times r}\over{4e}\right) \quad {a+1\over b}\!\bigg/{c+1\over d} $}++]

'''And many more examples:'''

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook16.html | TeXbook Chapter 16]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook17.html | TeXbook Chapter 17]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook17b.html | TeXbook Chapter 17 (more)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18.html | TeXbook Chapter 18]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18b.html | TeXbook Chapter 18 (more)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18c.html | TeXbook Chapter 18 (and more...)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18x.html | TeXbook Chapter 18 (exercise)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/TeXbook18y.html | TeXbook Chapter 18 (commutative diagram)]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/Henrici.html | And More Examples]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/examples.html | And More Examples...]]

* [[http://www.math.union.edu/~dpvc/jsMath/examples/Struik.html | And we're done...]]

%center%''As one can see, JsMath is an extremely versatile program which will hopefully be able to fill all of math^2's needs.''