Difference between revisions of "Math with newmat"
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− | < [[Math]] | [[MathML]] | [[Math with amsl]] > | + | < [[Math]] | [[MathML]] | [[Math with amsl]] | [[Math with nath]] > |
− | Here a short example how to use math with the | + | Here a short example how to use math with the '''newmat''' module (you can use inline math with $ some math $ ): |
<texcode> | <texcode> | ||
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\startformula | \startformula | ||
− | q = \delta \frac{{\partial p}}{{\partial x}} = \delta (\phi )p_{vsat} (\theta )\frac{{\partial \phi }}{{\partial x}} = \left[ {\frac{{\delta _a }}{{\mu (\theta )}}p_{vsat} (\theta )} \right]\frac{{\partial \phi }}{{\partial x}} = k\frac{{\partial \phi }}{{\partial x}} | + | q = \delta \frac{{\partial p}}{{\partial x}} = |
+ | \delta (\phi )p_{vsat} (\theta )\frac{{\partial \phi }}{{\partial x}} = | ||
+ | \left[ {\frac{{\delta _a }}{{\mu (\theta )}}p_{vsat} (\theta )} \right]\frac{{\partial \phi }}{{\partial x}} = | ||
+ | k\frac{{\partial \phi }}{{\partial x}} | ||
\stopformula | \stopformula | ||
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\startformula | \startformula | ||
− | q = \delta \frac{{\partial p}}{{\partial x}} = \delta (\phi )p_{vsat} (\theta )\frac{{\partial \phi }}{{\partial x}} = \left[ {\frac{{\delta _a }}{{\mu (\theta )}}p_{vsat} (\theta )} \right]\frac{{\partial \phi }}{{\partial x}} = k\frac{{\partial \phi }}{{\partial x}} | + | q = \delta \frac{{\partial p}}{{\partial x}} = \delta (\phi )p_{vsat} (\theta )\frac{{\partial \phi }}{{\partial x}} = |
+ | \left[ {\frac{{\delta _a }}{{\mu (\theta )}}p_{vsat} (\theta )} \right]\frac{{\partial \phi }}{{\partial x}} = k\frac{{\partial \phi }}{{\partial x}} | ||
\stopformula | \stopformula | ||
Revision as of 11:28, 28 June 2005
< Math | MathML | Math with amsl | Math with nath >
Here a short example how to use math with the newmat module (you can use inline math with $ some math $ ):
\usemodule[newmat] \startformula q = \delta \frac{{\partial p}}{{\partial x}} = \delta (\phi )p_{vsat} (\theta )\frac{{\partial \phi }}{{\partial x}} = \left[ {\frac{{\delta _a }}{{\mu (\theta )}}p_{vsat} (\theta )} \right]\frac{{\partial \phi }}{{\partial x}} = k\frac{{\partial \phi }}{{\partial x}} \stopformula \startlegend \leg k \\ water vapor permeability \\ \\ \leg K \\ water vapor permance \\ \\ \leg S \\ surface \\ \\ \leg L \\ length \\ \\ \stoplegend Aligning is also possible: \startformula\eqalign{ t_{L,early} & = t_{L,late} = t_{L,ray} \cr & = 6\ \mu m \cr }\stopformula
looks like:
(The sample was sent to the mailing list on 2005-06-28 by Wolfgang Zillig.)