/dports/games/flightgear/flightgear-2020.3.11/src/FDM/JSBSim/models/propulsion/ |
H A D | FGTank.cpp | 337 double HeatCapacity = 900.0; // Joules/lbm/C in Calculate() local
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/dports/science/py-chempy/chempy-0.8.2/chempy/util/tests/ |
H A D | test_expr.py | 42 class HeatCapacity(Expr): class
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/dports/science/gromacs/gromacs-2021.4/src/gromacs/gmxana/ |
H A D | gmx_nmeig.cpp | 395 double HeatCapacity = (calcTranslationalHeatCapacity() + calcRotationalHeatCapacity(linear) in analyzeThermochemistry() local
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/dports/science/elmerfem/elmerfem-release-9.0/fem/src/ |
H A D | MaterialModels.F90 | 710 REAL(KIND=dp) :: HeatCapacity(n), SpecificHeatRatio, GasConstant(n), & local
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/dports/science/elmerfem/elmerfem-release-9.0/fem/src/modules/ |
H A D | FlowSolve.F90 | 143 LocalTemperature(:), GasConstant(:), HeatCapacity(:), & local 2108 REAL(KIND=dp),ALLOCATABLE :: HeatCapacity(:), ReferenceTemperature(:), & local
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H A D | HeatSolve.F90 | 126 HeatCapacity(:), Enthalpy(:), EnthalpyFraction(:), Viscosity(:), LocalTemperature(:), & local
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H A D | AdvectionDiffusion.F90 | 133 LocalPotential(:), Density(:), HeatCapacity(:), Pressure(:),GasConstant(:), & local
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/dports/science/elmerfem/elmerfem-release-9.0/elmerice/Solvers/ |
H A D | TemperateIce.F90 | 114 UpperLimit(:), HeatCapacity(:), Density(:), TempExt(:), & local
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H A D | EnthalpySolver.F90 | 124 HeatCapacity(:),WaterDiffusivity(:), Enthalpy(:), Viscosity(:), LocalEnthalpy_h(:), & local
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/dports/science/liggghts/LIGGGHTS-PUBLIC-3.8.0-26-g6e873439/lib/atc/ |
H A D | PerAtomQuantityLibrary.cpp | 1907 HeatCapacity::HeatCapacity(ATC_Method * atc, AtomType atomType) : in HeatCapacity() function in ATC::HeatCapacity
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/dports/science/lammps/lammps-stable_29Sep2021/lib/atc/ |
H A D | PerAtomQuantityLibrary.cpp | 1908 HeatCapacity::HeatCapacity(ATC_Method * atc, AtomType atomType) : in HeatCapacity() function in ATC::HeatCapacity
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