Difference between revisions of "Sandbox"
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| + | {{LaTeX Shortcuts}} | ||
| + | $$\newcommand{\blah}{\alpha\beta}$$ | ||
| + | $$\newcommand{\blaha}{\alpha\beta}$$ | ||
| + | $$\newcommand{\blahb}{\alpha\beta}$$ | ||
| + | $$\newcommand{\blahc}{\alpha\beta}$$ | ||
| + | $$\newcommand{\blahd}{\alpha\beta}$$ | ||
There is $$\frac{g \beta \Delta T H^3}{\alpha \nu}$$ and then there is | There is $$\frac{g \beta \Delta T H^3}{\alpha \nu}$$ and then there is | ||
\[ \frac{g \beta \Delta T H^3}{\alpha \nu} \] | \[ \frac{g \beta \Delta T H^3}{\alpha \nu} \] | ||
| Line 11: | Line 17: | ||
\end{align} | \end{align} | ||
\] | \] | ||
| + | |||
| + | $$\blah$$ | ||
Revision as of 20:53, 2 September 2022
$$\newcommand{E}[2]{#1_{\mathrm{#2}}}$$ $$\newcommand{\blah}{\alpha\beta}$$ $$\newcommand{\blaha}{\alpha\beta}$$ $$\newcommand{\blahb}{\alpha\beta}$$ $$\newcommand{\blahc}{\alpha\beta}$$ $$\newcommand{\blahd}{\alpha\beta}$$ There is $$\frac{g \beta \Delta T H^3}{\alpha \nu}$$ and then there is \[ \frac{g \beta \Delta T H^3}{\alpha \nu} \] $$ \begin{align} \frac{g \beta \Delta T H^3}{\alpha \nu} \end{align} $$ \[ \begin{align} \frac{g \beta \Delta T H^3}{\alpha \nu} \end{align} \]
$$\blah$$
