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| ::<math>A + B = C</math> | | ::<math>A + B = C</math> |
| *Equations that include text are set off by the <nowiki>\text</nowiki> tag, with the desired text set within {brackets}. It's the difference between: | | *Equations that include text are set off by the <nowiki>\text</nowiki> tag, with the desired text set within {brackets}. It's the difference between: |
− | ::<nowiki><math>Equation</math></nowiki>
| + | <pre><nowiki><math>Equation</math></nowiki></pre> |
| ::<math>Equation</math> | | ::<math>Equation</math> |
| :and | | :and |
− | ::<nowiki><math>\text{Equation}</math></nowiki>
| + | <pre><nowiki><math>\text{Equation}</math></nowiki></pre> |
| ::<math>\text{Equation}</math> | | ::<math>\text{Equation}</math> |
| *Other important functions can include <nowiki>^ or _ for sub- or superscript, \times and \minus or - for multiplication and subtraction, and \sum for a summation.</nowiki> A typical equation might look like this in wikitext | | *Other important functions can include <nowiki>^ or _ for sub- or superscript, \times and \minus or - for multiplication and subtraction, and \sum for a summation.</nowiki> A typical equation might look like this in wikitext |
− | ::<nowiki><math>\text{Hydrocarbon tilt} = \rho_w/(\rho_w - \rho_h) \times \text{potentiometric gradient}</math></nowiki>
| + | <pre><nowiki><math>\text{Hydrocarbon tilt} = \rho_w/(\rho_w - \rho_h) \times \text{potentiometric gradient}</math></nowiki></pre> |
| :and come out looking like this: | | :and come out looking like this: |
| ::<math>\text{Hydrocarbon tilt} = \rho_w/(\rho_w - \rho_h) \times \text{potentiometric gradient}</math> | | ::<math>\text{Hydrocarbon tilt} = \rho_w/(\rho_w - \rho_h) \times \text{potentiometric gradient}</math> |
| *More examples: | | *More examples: |
− | :From [[Predicting_hydrocarbon_recovery#Calculating_oil_volume_in_place|Calculating oil volume in place]] | + | :From [[Predicting_hydrocarbon_recovery#Calculating_oil_volume_in_place|Calculating oil volume in place]]: |
− | ::<nowiki><math>\text{OOIP} = \frac{7758 \times \text{A} \times \text{h} \times \Phi \times (1 - \text{S}_\text{w})}{\text{B}_\text{oi}}</math></nowiki> | + | ::<pre><nowiki><math>\text{OOIP} = \frac{7758 \times \text{A} \times \text{h} \times \Phi \times (1 - \text{S}_\text{w})}{\text{B}_\text{oi}}</math></nowiki></pre> |
| ::<math>\text{OOIP} = \frac{7758 \times \text{A} \times \text{h} \times \Phi \times (1 - \text{S}_\text{w})}{\text{B}_\text{oi}}</math> | | ::<math>\text{OOIP} = \frac{7758 \times \text{A} \times \text{h} \times \Phi \times (1 - \text{S}_\text{w})}{\text{B}_\text{oi}}</math> |
− | :From [[Statistics overview#Variability|Variability]] | + | :From [[Statistics overview#Variability|Variability]]: |
− | ::<nowiki><math>s^2 = \frac{\sum (X - \bar{x})^2}{n}</math></nowiki> | + | ::<pre><nowiki><math>s^2 = \frac{\sum (X - \bar{x})^2}{n}</math></nowiki></pre> |
| :::<math>s^2 = \frac{\sum (X - \bar{x})^2}{n}</math> | | :::<math>s^2 = \frac{\sum (X - \bar{x})^2}{n}</math> |
| | | |