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|
Line 13: |
Line 13: |
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| ==Expansion== | | ==Expansion== |
− | If one expands the <math>|\ellipsis}^2</math> of the DWBA, one obtains 16 terms: | + | If one expands the <math>|...|^2</math> of the DWBA, one obtains 16 terms: |
| | | |
| <math> | | <math> |
− | tbd
| + | \begin{block}{c(ccc)} |
| + | H & .8 & .2 & .0 \\ |
| + | Y & .3 & .4 & .3 \\ |
| + | D & .2 & .1 & .7 \\ |
| + | \end{block} |
| </math> | | </math> |
| | | |
| + | ===Terms=== |
| The equation can thus be written as: | | The equation can thus be written as: |
| | | |
Line 46: |
Line 51: |
| \end{align} | | \end{align} |
| </math> | | </math> |
− | | + | ===Simplification=== |
| We can rearrange to: | | We can rearrange to: |
| | | |
Revision as of 17:09, 6 March 2018
DWBA Equation in thin film
Using the notation for compactness, the DWBA equation inside a thin film can be written:
Expansion
If one expands the of the DWBA, one obtains 16 terms:
Failed to parse (MathML with SVG or PNG fallback (recommended for modern browsers and accessibility tools): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \begin{block}{c(ccc)} H & .8 & .2 & .0 \\ Y & .3 & .4 & .3 \\ D & .2 & .1 & .7 \\ \end{block} }
Terms
The equation can thus be written as:
Simplification
We can rearrange to: