# Alternative Equation Formats

The equation on this page is available in multiple formats. Depending on your browser, some formats might not render correctly.

## MathML

$\begin{array}{rl}c& \sim \text{normal}\left({\mu }_{c},{\sigma }_{c}^{2}\right)\\ {\varphi }_{j}& \sim \text{normal}\left({\mu }_{{\varphi }_{i}},{\sigma }_{{\varphi }_{i}}^{2}\right)\phantom{\rule{1em}{0ex}}\text{for}\phantom{\rule{1em}{0ex}}j=1,\dots ,p\\ {\sigma }^{2}& \sim \text{igamma}\left(v,w\right)\\ {y}_{k}& \sim \text{normal}\left({\mu }_{{y}_{k}},{\sigma }_{{y}_{k}}^{2}\right)\phantom{\rule{1em}{0ex}}\text{for}\phantom{\rule{1em}{0ex}}k=0,\dots ,1-p\end{array}$

## MathML rendered with MathJax

$\begin{array}{rl}c& \sim \text{normal}\left({\mu }_{c},{\sigma }_{c}^{2}\right)\\ {\varphi }_{j}& \sim \text{normal}\left({\mu }_{{\varphi }_{i}},{\sigma }_{{\varphi }_{i}}^{2}\right)\phantom{\rule{1em}{0ex}}\text{for}\phantom{\rule{1em}{0ex}}j=1,\dots ,p\\ {\sigma }^{2}& \sim \text{igamma}\left(v,w\right)\\ {y}_{k}& \sim \text{normal}\left({\mu }_{{y}_{k}},{\sigma }_{{y}_{k}}^{2}\right)\phantom{\rule{1em}{0ex}}\text{for}\phantom{\rule{1em}{0ex}}k=0,\dots ,1-p\end{array}$

## Math as LaTeX Source

\begin{align*} c & \sim \text {normal}(\mu _ c,\sigma ^2_ c) \\ \phi _ j & \sim \text {normal}(\mu _{\phi _ i},\sigma ^2_{\phi _ i}) \quad \text {for} \quad j=1,\ldots , p \\ \sigma ^2 & \sim \text {igamma}(v,w) \\ y_{k} & \sim \text {normal}(\mu _{y_{k}},\sigma ^{2}_{y_{k}}) \quad \text {for} \quad k=0,\ldots , 1-p \\ \end{align*}