jsmath

protips for using jsmath? the main site sucks

{math}
x^3
{math}

[math]
x^{3}

To post: x^3
You write: [math]x^3[/math]

Most \rm\TeX math commands are available, along with some \cal A\kern-.1667em\lower.5exM\kern-.125emS-\rm L\kern-.36em\raise.5ex{\scriptsize A}\kern-.15em\TeX.

3^3^3

3^3

x^3

\sum_{n=1}^{\infty}\frac{\mu(n)}{n} = 0

exp(i*pi)=-1

\frac{sqrt(x)}{1+sqrt(x)}

\frac{(1+sqrt(x))*(1/2)*x^(-1/2)-(sqrt(x)*(1/2)*t^(-1/2)}{(1+sqrt(x))^2}

\frac{(1/2)x^(-1/2)((1+sqrt(x)-sqrt(x)))}{(1+sqrt(x))^2}

\frac {1}{2*(sqrt(x)*(1+sqrt(x))^2

dont mind me

\frac{sqrt(x)}{1+sqrt(x)}

\frac{(1+sqrt(x))*(1/2)*x^(-1/2)-(sqrt(x)*(1/2)*t^(-1/2)}{(1+sqrt(x))^2}

\frac{(1/2)x^(-1/2)((1+sqrt(x)-sqrt(x)))}{(1+sqrt(x))^2}

\frac {1}{2*(sqrt(x)*(1+sqrt(x))^2}

\frac{sqrt(x)}{1+sqrt(x)}

\frac{(1+sqrt(x))*(1/2)*x^(-1/2)-(sqrt(x)*(1/2)*t^(-1/2)}{(1+sqrt(x))^2}

\frac{(1/2)x^(-1/2)((1+sqrt(x)-sqrt(x)))}{(1+sqrt(x))^2}

\frac {1}{2*(sqrt(x)*(1+sqrt(x))^2


im a failure

\frac{sqrt(x)}{1+sqrt(x)}
\frac{(1+sqrt(x))*(1/2)*x^(-1/2)-(sqrt(x)*(1/2)*t^(-1/2)}{(1+sqrt(x))^2}
\frac{(1/2)x^(-1/2)((1+sqrt(x)-sqrt(x)))}{(1+sqrt(x))^2}
\frac {1}{2*(sqrt(x)*(1+sqrt(x))^2


im a failure

\frac{sqrt(x)}{1+sqrt(x)}

\frac{(1+sqrt(x))*(1/2)*x^(-1/2)-(sqrt(x)*(1/2)*t^(-1/2)}{(1+sqrt(x))^2}

\frac{(1/2)x^(-1/2)((1+sqrt(x)-sqrt(x)))}{(1+sqrt(x))^2}

\frac {1}{2*(sqrt(x)*(1+sqrt(x))^2}

x^3+x_3

wut

x^x^x^x^x^x^x^x^x^x^x

\exists

e^{i pi}+1=

[math]e{i \pi}+1=0[\math]

e{i \pi}+1=0

NIPS, GOOKS, SPICS, AND SPOOKS
DON'T FORGET JEWS, THEY'RE BAD NEWS
KILL THEM ALL OR ELSE WE LOSE

>>23
a little suspicious that you left FAGS off the list

\int_{birth}^{death}your \ life(x) \ dx = ass

\int2x\,dx

\root n+1 \of k

[math]\displaystyle \int_{0}^{k} x^2 dy = \int_{0}^{k} \root \of y dy[math]

fail^^
attempt...\displaystyle \int_{0}^{k} x^2 dy = \int_{0}^{k} \root \of y dy

x^3

{\sum_v {d_v^2}} - e

\displaystyle C*H_4 + 2*O_2 --> CO_2 + 2*H_2*O

x=y

[math]\frac{\partial}[\math]

\frac{\partial}

\frac{\partial}{\partial}

\frac{\partial u(t,x)}{\partial t}-\Delta u(t,x)=f(t,x)

\Large\frac{FUCK{}}{YOU}=LICK MY ASS

\jewcommand{\t}[1]{\displaystyle{#1 \atop {#1~~#1}}} \t{\t{\t{\t{\t{\t{\t{\triangle}}}}}}}

\jewcommand{\t}[1]{\displaystyle{#1 \atop {#1~~#1}}} \t{\t{\t{\t{\t{\t{\t{\triangle}}}}}}}

\jewcommand{\t}[1]{\displaystyle{#1 \atop {#1~~#1}}} \t{\t{\t{\t{\t{\t{\t{\triangle}}}}}}}

[math]
z = (z_1,z_2) \qquad \dot{z} = [f(x,z_2); z_1 ]
[math]

[math]z = (z_1,z_2) \qquad \dot{z} = [f(x,z_2); z_1 ] [math]

[math] z = (z_1,z_2) \qquad \dot{z} = [f(x,z_2); z_1 ] [math]

{math}
<z = (z_1,z_2) \qquad \dot{z} = [f(x,z_2); z_1 ] >
{math}

newcommand{\Bold}[1]{\mathbf{#1}}\left[\mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{\left(i + 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{7}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{2}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{9}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{i \, 2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{11}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{13}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{7}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{\left(i - 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{4}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{17}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{9}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{19}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{19}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{9}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{17}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{4}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{\left(i + 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{7}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{13}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{11}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{i \, 2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{9}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{2}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{7}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{\left(i - 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}\right]

newcommand{\Bold}[1]{\mathbf{#1}}\left[\mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{1}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{\left(i + 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{7}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{2}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{9}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{i \, 2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{11}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{3}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{13}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{7}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{\left(i - 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{4}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{17}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{9}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(\frac{19}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{19}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{9}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{17}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{4}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{\left(i + 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{7}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{13}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{11}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{i \, 2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{9}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{2}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{7}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = -\frac{\left(i - 1\right) \, 2^{\left(\frac{21}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{2 \, \mbox{fun}^{\left(\frac{1}{4}\right)}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{5} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{3}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{10} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)} e^{\left(-\frac{1}{20} i \, \pi\right)}}{\mbox{fun}^{\frac{1}{4}}}, \mbox{int} = \frac{2^{\left(\frac{1}{40}\right)} \mbox{Ir}^{\left(\frac{1}{40}\right)}}{\mbox{fun}^{\frac{1}{4}}}\right]

this is some text with [math]\pi[\math] in it.
[eqn]\pi[\eqn]
asdf

c