pyNastran
0.5.0
pyNastran BDF Reader/Writer, OP2 Parser, and GUI
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\[ r = \sqrt(x^2+y^2) \]
\[ \theta = tan^-1(\frac{y}{x}) \]
\[ z = z \]
More...Public Member Functions | |
def | coordToXYZ |
def | XYZtoCoord |
\[ r = \sqrt(x^2+y^2) \]
\[ \theta = tan^-1(\frac{y}{x}) \]
\[ z = z \]
\[ x = r cos(\theta) \]
\[ y = r sin(\theta) \]
\[ z = z \]
\[ p = [x,y,z] + e_1 \]
http://en.wikipedia.org/wiki/Cylindrical_coordinate_system
Definition at line 268 of file coordinateSystems.py.
y R | / | / | / theta *------------x
\[ \large x = R \cos(\theta) \]
\[ \large y = R \sin(\theta) \]
Definition at line 282 of file coordinateSystems.py.
Referenced by pyNastran.bdf.cards.coordinateSystems.Cord2x.transformToGlobal(), and pyNastran.bdf.cards.coordinateSystems.CylindricalCoord.XYZtoCoord().
Definition at line 289 of file coordinateSystems.py.
References pyNastran.bdf.cards.coordinateSystems.CylindricalCoord.coordToXYZ(), pyNastran.bdf.cards.coordinateSystems.Coord.e1, pyNastran.bdf.cards.thermal.thermal.CHBDYP.e1, pyNastran.bdf.cards.thermal.thermal.PCONV.e1, pyNastran.bdf.cards.coordinateSystems.Cord2x.e1, pyNastran.op2.tables.oes_stressStrain.complex.oes_bars.ComplexBarStrainObject.e1, pyNastran.op2.tables.oes_stressStrain.real.oes_bars.BarStrainObject.e1, pyNastran.bdf.cards.coordinateSystems.Cord1x.e1, pyNastran.op2.tables.oes_stressStrain.real.oes_solids.SolidStrainObject.e1, pyNastran.bdf.cards.properties.bars.PBEAM.e1, and pyNastran.bdf.cards.properties.bars.PBEND.e1.