...
Does
...
math
...
work here?
tiny
| Latex |
|---|
\begin{tiny}\[\omega_{0} = 2 \pi \nu_{0} \]\end{tiny} |
footnotesize
| Latex |
|---|
\begin{footnotesize}\[\omega_{0} = 2 \pi \nu_{0} \]\end{footnotesize} |
Default
| Latex |
|---|
\[\omega_{0} = 2 \pi \nu_{0} \]\\ |
| Latex |
|---|
Default, text inside LaTeX environment (note that Confluence doesn't put display math on a separate line) \[\omega_{0} = 2 \pi \nu_{0} \]\\ |
large
| Latex |
|---|
\ here? {latex}\begin{large} \[\omega_{0} = 2 \pi \nu_{0} \]\end{large} |
Large
| Latex |
|---|
\begin{Large}\[\omega_{0} = 2 \pi \nu_{0} \]\end{Large} |
Huge
| Latex |
|---|
\begin{Huge}\[\omega_{0} = 2 \pi \nu_{0} \]\ end{Huge} |
| Latex |
|---|
}\[f(x) = \left\{\begin{array}{ll} \sqrt{-x} & x<0\\ 1 & x=0\\ \sqrt{x} & x>0\end{array}\right.\]{latex} |
Keen
...
!
...
Now,
...
can
...
it
...
handle
...
inline
...
stuff
...
like
| Latex |
|---|
}$\displaystyle{\frac{x-1}{x^2} = \int_0^77 t^3 \, dt}$ |
?
| Latex |
|---|
{latex}? {latex}\[\begin{tabulararray}{ccc}a & b & c\\ 1 & 2 & 3\\ K & L & M\end{tabulararray}\]{latex} {gliffy:name=snowman|align=left|size=M|version=3} |
| Gliffy Diagram | ||||
|---|---|---|---|---|
|