Provided by: cgns-convert_3.1.4.2-1_amd64
NAME
AxisymmetryAngle - manual page for AxisymmetryAngle a
DESCRIPTION
AxisymmetryAngle a AxisymmetryAxisVector AxisymmetryReferencePoint L CharacteristicAcousticMinus M / LT^2 CharacteristicAcousticPlus M / LT^2 CharacteristicEntropy M / LT^2 CharacteristicVorticity1 L / T CharacteristicVorticity2 L / T CoefDrag CoefLift CoefMomentEta CoefMomentMagnitude CoefMomentNormal CoefMomentPhi CoefMomentR CoefMomentTangential CoefMomentTheta CoefMomentX CoefMomentXi CoefMomentY CoefMomentZ CoefMomentZeta CoefPressure CoefSkinFrictionMagnitude CoefSkinFrictionNormal CoefSkinFrictionPhi CoefSkinFrictionR CoefSkinFrictionTangential CoefSkinFrictionTheta CoefSkinFrictionX CoefSkinFrictionY CoefSkinFrictionZ Coef_Area L^2 Coef_Length L Coef_PressureDynamic M / LT^2 Coef_PressureReference M / LT^2 CompressibilityFactor CoordinateEta L CoordinateNormal L CoordinatePhi a CoordinateR L CoordinateTangential L CoordinateTheta a CoordinateX L CoordinateXi L CoordinateY L CoordinateZ L CoordinateZeta L CurrentDensityX 1 / L^2 CurrentDensityY 1 / L^2 CurrentDensityZ 1 / L^2 Density M / L^3 DensityStagnation M / L^3 Drag ML / T^2 ElectricConductivity ML / T^3 ElectricFieldX ML / T ElectricFieldY ML / T ElectricFieldZ ML / T EnergyInternal L^2 / T^2 EnergyKinetic L^2 / T^2 EnergyStagnation L^2 / T^2 EnergyStagnationDensity M / LT^2 Enthalpy L^2 / T^2 EnthalpyEnergyRatio EnthalpyStagnation L^2 / T^2 Entropy ML^2 / T^2@ EntropyApprox ForceMagnitude ML / T^2 ForceNormal ML / T^2 ForcePhi ML / T^2 ForceR ML / T^2 ForceTangential ML / T^2 ForceTheta ML / T^2 ForceX ML / T^2 ForceY ML / T^2 ForceZ ML / T^2 FuelAirRatio GravityVector L / T^2 GridVelocityEta L / T GridVelocityMagnitude L / T GridVelocityNormal L / T GridVelocityPhi a / T GridVelocityR L / T GridVelocityTangential L / T GridVelocityTheta a / T GridVelocityX L / T GridVelocityXi L / T GridVelocityY L / T GridVelocityZ L / T GridVelocityZeta L / T HeatOfFormation# L^2 / T^2 IdealGasConstant L^2 / T^2@ JouleHeating ML^2 / T^2 LaminarViscosity# M / LT LengthReference L Lift ML / T^2 LorenzForceX ML / T^2 LorenzForceY ML / T^2 LorenzForceZ ML / T^2 Mach Mach_Velocity L / T Mach_VelocitySound L / T MagneticFieldX 1 / L MagneticFieldY 1 / L MagneticFieldZ 1 / L MassFlow M / L^2T MassFraction# MoleFraction# MolecularWeight# MomentEta ML^2 / T^2 MomentMagnitude ML^2 / T^2 MomentNormal ML^2 / T^2 MomentPhi ML^2 / T^2 MomentR ML^2 / T^2 MomentTangential ML^2 / T^2 MomentTheta ML^2 / T^2 MomentX ML^2 / T^2 MomentXi ML^2 / T^2 MomentY ML^2 / T^2 MomentZ ML^2 / T^2 MomentZeta ML^2 / T^2 Moment_CenterNormal L Moment_CenterPhi L Moment_CenterR L Moment_CenterTangential L Moment_CenterTheta L Moment_CenterX L Moment_CenterY L Moment_CenterZ L MomentumMagnitude M / L^2T MomentumNormal M / L^2T MomentumPhi M / L^2T MomentumR M / L^2T MomentumTangential M / L^2T MomentumTheta M / L^2T MomentumX M / L^2T MomentumY M / L^2T MomentumZ M / L^2T OriginLocation L Potential L^2 / T PowerLawExponent Prandtl PrandtlTurbulent Prandtl_SpecificHeatPressure L^2 / T^2@ Prandtl_ThermalConductivity ML / T^3@ Prandtl_ViscosityMolecular M / LT Pressure M / LT^2 PressureDynamic M / LT^2 PressureStagnation M / LT^2 ReferenceTemperatureHOF @ Reynolds ReynoldsStressXX M / LT^2 ReynoldsStressXY M / LT^2 ReynoldsStressXZ M / LT^2 ReynoldsStressYY M / LT^2 ReynoldsStressYZ M / LT^2 ReynoldsStressZZ M / LT^2 Reynolds_Length L Reynolds_Velocity L / T Reynolds_ViscosityKinematic L^2 / T RiemannInvariantMinus L / T RiemannInvariantPlus L / T RigidRotationAngle a RigidRotationRate a / T RigidVelocity L / T RotatingEnergyStagnation L^2 / T^2 RotatingEnergyStagnationDensity M / LT^2 RotatingEnthalpyStagnation L^2 / T^2 RotatingMach RotatingMomentumMagnitude M / L^2T RotatingMomentumNormal M / L^2T RotatingMomentumPhi M / L^2T RotatingMomentumR M / L^2T RotatingMomentumTangential M / L^2T RotatingMomentumTheta M / L^2T RotatingMomentumX M / L^2T RotatingMomentumY M / L^2T RotatingMomentumZ M / L^2T RotatingPressureStagnation M / LT^2 RotatingVelocityMagnitude L / T RotatingVelocityNormal L / T RotatingVelocityPhi L / T RotatingVelocityR L / T RotatingVelocityTangential L / T RotatingVelocityTheta L / T RotatingVelocityX L / T RotatingVelocityY L / T RotatingVelocityZ L / T RotationAngle a RotationCenter L RotationRateVector a / T SkinFrictionMagnitude M / LT^2 SkinFrictionNormal M / LT^2 SkinFrictionPhi M / LT^2 SkinFrictionR M / LT^2 SkinFrictionTangential M / LT^2 SkinFrictionTheta M / LT^2 SkinFrictionX M / LT^2 SkinFrictionY M / LT^2 SkinFrictionZ M / LT^2 SoundIntensity M / T^3 SoundIntensityDB SpeciesDensity# M / L^3 SpecificHeatPressure L^2 / T^2@ SpecificHeatRatio SpecificHeatRatio_Pressure L^2 / T^2@ SpecificHeatRatio_Volume L^2 / T^2@ SpecificHeatVolume L^2 / T^2@ StreamFunction L^2 / T SurfaceArea L^2 SutherlandLawConstant @ Temperature @ TemperatureReference @ TemperatureStagnation @ ThermalConductivity# ML / T^3@ ThermalConductivityReference ML / T^3@ Translation L TurbulentBBReynolds TurbulentDissipation L^2 / T^3 TurbulentDissipationRate 1 / T TurbulentDistance L TurbulentEnergyKinetic L^2 / T^2 TurbulentSANuTilde L^2 / T VelocityAngleMagnitude a VelocityAngleNormal a VelocityAnglePhi a VelocityAngleR a VelocityAngleTangential a VelocityAngleTheta a VelocityAngleX a VelocityAngleY a VelocityAngleZ a VelocityMagnitude L / T VelocityNormal L / T VelocityPhi L / T VelocityR L / T VelocitySound L / T VelocitySoundStagnation L / T VelocityTangential L / T VelocityTheta L / T VelocityUnitVectorMagnitude VelocityUnitVectorNormal VelocityUnitVectorPhi VelocityUnitVectorR VelocityUnitVectorTangential VelocityUnitVectorTheta VelocityUnitVectorX VelocityUnitVectorY VelocityUnitVectorZ VelocityX L / T VelocityY L / T VelocityZ L / T VibrationalElectronEnergy L^2 / T^2 VibrationalElectronTemperature @ ViscosityEddy M / LT ViscosityEddyKinematic L^2 / T ViscosityKinematic L^2 / T ViscosityMolecular M / LT ViscosityMolecularReference M / LT Voltage ML^2 / T VorticityMagnitude 1 / T VorticityNormal 1 / T VorticityPhi 1 / T VorticityR 1 / T VorticityTangential 1 / T VorticityTheta 1 / T VorticityX 1 / T VorticityY 1 / T VorticityZ 1 / T AxisymmetryAxisVector AxisymmetryReferencePoint L CharacteristicAcousticMinus M / LT^2 CharacteristicAcousticPlus M / LT^2 CharacteristicEntropy M / LT^2 CharacteristicVorticity1 L / T CharacteristicVorticity2 L / T CoefDrag CoefLift CoefMomentEta CoefMomentMagnitude CoefMomentNormal CoefMomentPhi CoefMomentR CoefMomentTangential CoefMomentTheta CoefMomentX CoefMomentXi CoefMomentY CoefMomentZ CoefMomentZeta CoefPressure CoefSkinFrictionMagnitude CoefSkinFrictionNormal CoefSkinFrictionPhi CoefSkinFrictionR CoefSkinFrictionTangential CoefSkinFrictionTheta CoefSkinFrictionX CoefSkinFrictionY CoefSkinFrictionZ Coef_Area L^2 Coef_Length L Coef_PressureDynamic M / LT^2 Coef_PressureReference M / LT^2 CompressibilityFactor CoordinateEta L CoordinateNormal L CoordinatePhi a CoordinateR L CoordinateTangential L CoordinateTheta a CoordinateX L CoordinateXi L CoordinateY L CoordinateZ L CoordinateZeta L CurrentDensityX 1 / L^2 CurrentDensityY 1 / L^2 CurrentDensityZ 1 / L^2 Density M / L^3 DensityStagnation M / L^3 Drag ML / T^2 ElectricConductivity ML / T^3 ElectricFieldX ML / T ElectricFieldY ML / T ElectricFieldZ ML / T EnergyInternal L^2 / T^2 EnergyKinetic L^2 / T^2 EnergyStagnation L^2 / T^2 EnergyStagnationDensity M / LT^2 Enthalpy L^2 / T^2 EnthalpyEnergyRatio EnthalpyStagnation L^2 / T^2 Entropy ML^2 / T^2@ EntropyApprox ForceMagnitude ML / T^2 ForceNormal ML / T^2 ForcePhi ML / T^2 ForceR ML / T^2 ForceTangential ML / T^2 ForceTheta ML / T^2 ForceX ML / T^2 ForceY ML / T^2 ForceZ ML / T^2 FuelAirRatio GravityVector L / T^2 GridVelocityEta L / T GridVelocityMagnitude L / T GridVelocityNormal L / T GridVelocityPhi a / T GridVelocityR L / T GridVelocityTangential L / T GridVelocityTheta a / T GridVelocityX L / T GridVelocityXi L / T GridVelocityY L / T GridVelocityZ L / T GridVelocityZeta L / T HeatOfFormation# L^2 / T^2 IdealGasConstant L^2 / T^2@ JouleHeating ML^2 / T^2 LaminarViscosity# M / LT LengthReference L Lift ML / T^2 LorenzForceX ML / T^2 LorenzForceY ML / T^2 LorenzForceZ ML / T^2 Mach Mach_Velocity L / T Mach_VelocitySound L / T MagneticFieldX 1 / L MagneticFieldY 1 / L MagneticFieldZ 1 / L MassFlow M / L^2T MassFraction# MoleFraction# MolecularWeight# MomentEta ML^2 / T^2 MomentMagnitude ML^2 / T^2 MomentNormal ML^2 / T^2 MomentPhi ML^2 / T^2 MomentR ML^2 / T^2 MomentTangential ML^2 / T^2 MomentTheta ML^2 / T^2 MomentX ML^2 / T^2 MomentXi ML^2 / T^2 MomentY ML^2 / T^2 MomentZ ML^2 / T^2 MomentZeta ML^2 / T^2 Moment_CenterNormal L Moment_CenterPhi L Moment_CenterR L Moment_CenterTangential L Moment_CenterTheta L Moment_CenterX L Moment_CenterY L Moment_CenterZ L MomentumMagnitude M / L^2T MomentumNormal M / L^2T MomentumPhi M / L^2T MomentumR M / L^2T MomentumTangential M / L^2T MomentumTheta M / L^2T MomentumX M / L^2T MomentumY M / L^2T MomentumZ M / L^2T OriginLocation L Potential L^2 / T PowerLawExponent Prandtl PrandtlTurbulent Prandtl_SpecificHeatPressure L^2 / T^2@ Prandtl_ThermalConductivity ML / T^3@ Prandtl_ViscosityMolecular M / LT Pressure M / LT^2 PressureDynamic M / LT^2 PressureStagnation M / LT^2 ReferenceTemperatureHOF @ Reynolds ReynoldsStressXX M / LT^2 ReynoldsStressXY M / LT^2 ReynoldsStressXZ M / LT^2 ReynoldsStressYY M / LT^2 ReynoldsStressYZ M / LT^2 ReynoldsStressZZ M / LT^2 Reynolds_Length L Reynolds_Velocity L / T Reynolds_ViscosityKinematic L^2 / T RiemannInvariantMinus L / T RiemannInvariantPlus L / T RigidRotationAngle a RigidRotationRate a / T RigidVelocity L / T RotatingEnergyStagnation L^2 / T^2 RotatingEnergyStagnationDensity M / LT^2 RotatingEnthalpyStagnation L^2 / T^2 RotatingMach RotatingMomentumMagnitude M / L^2T RotatingMomentumNormal M / L^2T RotatingMomentumPhi M / L^2T RotatingMomentumR M / L^2T RotatingMomentumTangential M / L^2T RotatingMomentumTheta M / L^2T RotatingMomentumX M / L^2T RotatingMomentumY M / L^2T RotatingMomentumZ M / L^2T RotatingPressureStagnation M / LT^2 RotatingVelocityMagnitude L / T RotatingVelocityNormal L / T RotatingVelocityPhi L / T RotatingVelocityR L / T RotatingVelocityTangential L / T RotatingVelocityTheta L / T RotatingVelocityX L / T RotatingVelocityY L / T RotatingVelocityZ L / T RotationAngle a RotationCenter L RotationRateVector a / T SkinFrictionMagnitude M / LT^2 SkinFrictionNormal M / LT^2 SkinFrictionPhi M / LT^2 SkinFrictionR M / LT^2 SkinFrictionTangential M / LT^2 SkinFrictionTheta M / LT^2 SkinFrictionX M / LT^2 SkinFrictionY M / LT^2 SkinFrictionZ M / LT^2 SoundIntensity M / T^3 SoundIntensityDB SpeciesDensity# M / L^3 SpecificHeatPressure L^2 / T^2@ SpecificHeatRatio SpecificHeatRatio_Pressure L^2 / T^2@ SpecificHeatRatio_Volume L^2 / T^2@ SpecificHeatVolume L^2 / T^2@ StreamFunction L^2 / T SurfaceArea L^2 SutherlandLawConstant @ Temperature @ TemperatureReference @ TemperatureStagnation @ ThermalConductivity# ML / T^3@ ThermalConductivityReference ML / T^3@ Translation L TurbulentBBReynolds TurbulentDissipation L^2 / T^3 TurbulentDissipationRate 1 / T TurbulentDistance L TurbulentEnergyKinetic L^2 / T^2 TurbulentSANuTilde L^2 / T VelocityAngleMagnitude a VelocityAngleNormal a VelocityAnglePhi a VelocityAngleR a VelocityAngleTangential a VelocityAngleTheta a VelocityAngleX a VelocityAngleY a VelocityAngleZ a VelocityMagnitude L / T VelocityNormal L / T VelocityPhi L / T VelocityR L / T VelocitySound L / T VelocitySoundStagnation L / T VelocityTangential L / T VelocityTheta L / T VelocityUnitVectorMagnitude VelocityUnitVectorNormal VelocityUnitVectorPhi VelocityUnitVectorR VelocityUnitVectorTangential VelocityUnitVectorTheta VelocityUnitVectorX VelocityUnitVectorY VelocityUnitVectorZ VelocityX L / T VelocityY L / T VelocityZ L / T VibrationalElectronEnergy L^2 / T^2 VibrationalElectronTemperature @ ViscosityEddy M / LT ViscosityEddyKinematic L^2 / T ViscosityKinematic L^2 / T ViscosityMolecular M / LT ViscosityMolecularReference M / LT Voltage ML^2 / T VorticityMagnitude 1 / T VorticityNormal 1 / T VorticityPhi 1 / T VorticityR 1 / T VorticityTangential 1 / T VorticityTheta 1 / T VorticityX 1 / T VorticityY 1 / T VorticityZ 1 / T