LatexMathematics.Latex HistoryHide minor edits - Show changes to output Changed line 4 from:
* to:
*Instructions for [[http://www.iam.ubc.ca/~newbury/tex/page-set-up.html|setting margins]] in Latex documents, which is always a pain. Changed line 3 from:
*Latex and web authoring to:
*Latex and web authoring -- [[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Install the [[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html|Tex fonts]] and select the corresponding option in the jsMath box to make the formulas look really nice. Changed line 3 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Install the [[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html|Tex fonts]] and select the corresponding option in the jsMath box to make the formulas look really nice. to:
*Latex and web authoring: [[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Install the [[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html|Tex fonts]] and select the corresponding option in the jsMath box to make the formulas look really nice. Changed line 3 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. to:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Install the [[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html|Tex fonts]] and select the corresponding option in the jsMath box to make the formulas look really nice. Changed line 4 from:
to:
*Instrucktions for [[http://www.iam.ubc.ca/~newbury/tex/page-set-up.html|setting margins]] in Latex documents, which is always a pain. Changed lines 3-7 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example, Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. to:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example,{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$}{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$}Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Changed line 3 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath| to:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|jsMath]] -- A very convenient tool for typesetting math formulas in a webpage. One inputs the Latex codes directly and the package outputs math formulas. For example, Added lines 6-7:
Click on the jsMath box on the lower right (or alt-click on any formula) to open a configuration box. Double click on formula to see the Latex codes. Changed line 5 from:
{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \right)^\frac{1}{p}$$} to:
{$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \,dA(z)\right)^\frac{1}{p}$$} Changed lines 4-5 from:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q}$$} to:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q};$$} {$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \right)^\frac{1}{p}$$} Changed lines 4-5 from:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q}$$} to:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q}$$}; {$$\left\Vert f \right\Vert_{F_\alpha^p}=\left( \int_{\mathbb{C}}\left\vert f(z) e^{-\frac{\alpha}{2}\left\vert z \right\vert^2}\right\vert^p \right)^\frac{1}{p} Changed line 3 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|Using Latex in PmWiki]] -- to:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|Using Latex in PmWiki]] -- Very convenient tool for typesetting math formulas in a webpage. For example, Changed lines 3-4 from:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|Using Latex in PmWiki]] -- This package lets me type things like to:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|Using Latex in PmWiki]] -- This package lets me type things like Changed line 5 from:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \right)^\frac{1}{q}$$} to:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \,dx\right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \,dx\right)^\frac{1}{q}$$} Changed line 5 from:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \right)^\frac{1}{p}$$} to:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \right)^\frac{1}{p} \left(\int_0^1 \left\vert g(x) \right\vert^q \right)^\frac{1}{q}$$} Changed line 5 from:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert $$} to:
{$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert \leq \left(\int_0^1 \left\vert f(x) \right\vert^p \right)^\frac{1}{p}$$} Changed lines 4-5 from:
-- This package lets me type things like {$$ \int f(x) to:
-- This package lets me type things like {$$ \left\vert\int_0^1 f(x)g(x)\,dx \right\vert $$} Changed line 4 from:
-- This package lets me type things like {$ \int f(x)\,dx $} to:
-- This package lets me type things like {$$ \int f(x)\,dx $$} Changed lines 4-5 from:
-- This package lets me type things like to:
-- This package lets me type things like {$ \int f(x)\,dx $} Added lines 4-5:
-- This package lets me type things like {$$ \int $$} Added line 3:
*[[http://www.pmichaud.com/wiki/Cookbook/JsMath|Using Latex in PmWiki]] Changed lines 1-3 from:
!!Resources for to:
!!Resources for Latex *[[http://icking-music-archive.org/software/indexmt6.html|MusiXTeX]] |