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Oh yay. LaTeX is working again.

Name: Anonymous 2009-12-31 2:09

:-)

Name: Anonymous 2009-12-31 3:52

orly?

you_{are}^{full} \int^{of}_{shit}

Name: Anonymous 2009-12-31 3:53

>>2
\frac{OMFG}{YES}

Name: Anonymous 2009-12-31 6:34

♥Kodachrome-ome-ome♫
 ☼ they give us those nice, bright colors♪♪
♥give us the greens of summers♫
 ☼ makes ya think all the world's a sunny day, oh yeah♪♪

♥I gotta Nikon camera♫
 ☼ I'd love to take a photograph♪♪
♥so mama, don't take my Kodachrome away!♫

Name: Anonymous 2010-01-13 14:38

O rly?

\begin{equation} \partial{\mathrm{O Rly}}{time} \end{equation

Name: Anonymous 2010-01-13 14:38

$$ \partial{\mathrm{O Rly}}{time} $$

Name: Anonymous 2010-01-13 14:41

How to LaTeX?

[math] \frac{a}{b}

Name: Anonymous 2010-01-13 14:42

hmmmm...

[\frac{a}{b} ]

Name: Anonymous 2010-01-13 14:47

i\hbar\frac{\partial}{\partial t}\Psi\left (\vec{r},t\right ) = -\frac{\hbar^{2}}{2m}\nabla^{2}\Psi\left (\vec{r},t\right ) + V\left (\vec{r},t\right )

Name: Anonymous 2010-01-13 14:49

Dammit, I forgot to multiply the potential with \Psi :P

Name: Anonymous 2010-01-13 14:50

\begin{equation} \label{eq:AEqn} {{\nabla}^2}T} = {\frac{1}{r^2}}\frac{\partial}{\partial r}\Bigg({r^2}{\frac{\partial T}{\partial r}\Bigg) + {{\frac{1}{{r^2}{\sin\theta}}{\frac{\partial}{\partial \theta}}{\Bigg({\sin \theta}{\frac{\partial T}{\partial \theta}}\Bigg)} + {{\frac{1}{{r^2}{{{\sin}^2}\theta}}}{\frac{{\partial}^2 T}{\partial {\phi}^2}}
\end{equation}

Name: Anonymous 2010-01-13 14:51

Still no sweet sweet LaTeX goodness.

Name: Anonymous 2010-01-13 14:52

>>12
paste your LaTeX code between [ math ] and [/ math ] tags

Name: Anonymous 2010-01-13 14:53

{{\nabla}^2}T} = {\frac{1}{r^2}}\frac{\partial}{\partial r}\Bigg({r^2}{\frac{\partial T}{\partial r}\Bigg) + {{\frac{1}{{r^2}{\sin\theta}}{\frac{\partial}{\partial \theta}}{\Bigg({\sin \theta}{\frac{\partial T}{\partial \theta}}\Bigg)} + {{\frac{1}{{r^2}{{{\sin}^2}\theta}}}{\frac{{\partial}^2 T}{\partial {\phi}^2}}

Name: Anonymous 2010-01-13 14:54

{{\nabla}^2}T} = {\frac{1}{r^2}}\frac{\partial}{\partial r}\Bigg({r^2}{\frac{\partial T}{\partial r}\Bigg) + {{\frac{1}{{r^2}{\sin\theta}}{\frac{\partial}{\partial \theta}}{\Bigg({\sin \theta}{\frac{\partial T}{\partial \theta}}\Bigg)} + {{\frac{1}{{r^2}{{{\sin}^2}\theta}}}{\frac{{\partial}^2 T}{\partial {\phi}^2}}

Name: Anonymous 2010-01-13 14:54

>>14
...and test your code first using mathbin.net or something ;)

Name: Anonymous 2010-01-13 14:55

\frac{{\partial}Q}{{\partial}t}

Name: Anonymous 2010-01-13 14:56

>>16

Just copypastaed it straight out of my dissertation... seems to work there OK.

abc

Name: Anonymous 2010-01-13 14:59

{{\nabla}^2}T} = {\frac{1}{r^2}}\frac{\partial}{\partial r}\Bigg({r^2}{\frac{\partial T}{\partial r}\Bigg) + {{\frac{1}{{r^2}{\sin\theta}}{\frac{\partial}{\partial \theta}}{\Bigg({\sin \theta}{\frac{\partial T}{\partial \theta}}\Bigg)} + {{\frac{1}{{r^2}{{{\sin}^2}\theta}}}{\frac{{\partial}^2 T}{\partial {\phi}^2}}

Name: Anonymous 2010-01-13 15:00

\mathrm{123} 123

Name: Anonymous 2010-01-13 15:13

>>18
You seem to have the entire code enclosed in brackets: I don't think the LaTeX plugin likes that, although it doesn't give any problems in a LaTeX document

Name: Anonymous 2010-01-14 15:56

\frac{\pi\eta\nu\iota\sigma}{\delta\iota\kappa}

Name: Anonymous 2010-01-14 15:57

ok, why the fuck doesnt this work?

I used the [ma th] and [/ma th] brackets and all.

Name: Anonymous 2010-01-14 16:19

>>23
You need to install gentoo

Name: Anonymous 2010-01-14 16:48

>>23
If your post was >>22, it works just fine for me. Do you have the right fonts installed? (see top of page)

Name: Anonymous 2010-01-14 16:49

\hat{H}\psi = E\psi
Sweet :)

Name: Anonymous 2010-01-14 17:19

Still broken in Opera. :(

Name: Anonymous 2010-01-14 21:47

\frac{\pi\eta\nu\iota\sigma}{\delta\iota\kappa}

Name: Anonymous 2010-01-15 1:36

\omega h\alpha t   th\epsilon   f\mu c\kappa, /\varsigma \zeta \imath / ?

Name: Anonymous 2010-01-15 14:18

>>24
Back to /g/, please.

>>27
Same here. But I use both Firefox and Opera for these reasons.

Name: Anonymous 2010-01-17 5:28

$\mathcal{F}=\{f_i:1\leq i\leq m\}$ $$ f_{i}:S^{n+i}\rightarrow $$ for some fixed $n\in\mathbb{N}$

Name: Anonymous 2010-01-17 5:29

\mathcal{F}=\{f_i:1\leq i\leq m\} f_{i}:S^{n+i}\rightarrow for some fixed n\in\mathbb{N}
Don't change these.
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