| Equation | Wiki Code | Other Info
|
| <math>K_{p}=\frac{p_{\text{C}}^{c}
\text{ }\times \text{ }p_{\text{D}}^{d}\
text{ }\times \text{ }\cdots }{p_{\text{A}}
^{a}\text{ }\times \text{ }p_{\text{B}}^{b}
\text{ }\times \text{ }\cdots }</math>
|
| <math>K\text{ }\!\!{}^\circ\!\!\
text{ }=\frac{\left( \frac{p_{\text{C}}}
{p\text{ }\!\!{}^\circ\!\!\text{ }} \right)
^{c}\text{ }\times \text{ }\left( \frac
{p_{\text{D}}}{p\text{ }\!\!{}^\circ\!\!\
text{ }} \right)^{d}\text{ }\times \text
{ }\cdots }{\left( \frac{p_{\text{A}}}{p\
text{ }\!\!{}^\circ\!\!\text{ }} \right)^
{a}\text{ }\times \text{ }\left( \frac{p_
{\text{B}}}{p\text{ }\!\!{}^\circ\!\!\text
{ }} \right)^{b}\text{ }\times \text{ }\cdots
}</math>
|
 + 
| <math>\frac{-\Delta H_{m}^{ o}}{RT}</math> +
<math>\frac{\Delta S_{m}^{ o}}{R}</math>
|
 + 
| <math>\frac{-\Delta H_{m}^{ o}}
{\text{2}\text{.303}RT}</math> + <math>
\frac{\Delta S_{m}^{ o}}{\text{2}\text
{.303}R}</math>
|
|
| <math>\frac{-\Delta H_{m}^
{ o}}{\text{2}\text{.303}RT}</math>
|
|
| <math>\frac{\Delta S_{m}^{ o}}
{\text{2}\text{.303}R}</math>
|
