Steam Properties Calculators

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Enthalpy from Pressure and Temperature H2oPTHPressure, TemperatureEnthalpy
Entropy from Pressure and Temperature H2oPTSPressure, TemperatureEntropy
Specific Internal Energy from Pressure and Temperature H2oPTUPressure, TemperatureSpecific Internal Energy
Specific Volume from Pressure and Temperature H2oPTVPressure, TemperatureSpecific Volume
Isobaric Heat Capacity from Pressure and Temperature H2oPTCpPressure, TemperatureIsobaric Heat Capacity
Isochoric Heat Capacity from Pressure and Temperature H2oPTCvPressure, TemperatureIsochoric Heat Capacity
Speed of Sound from Pressure and Temperature H2oPTWPressure, TemperatureSpeed of Sound
Viscosity from Pressure and Temperature H2oPTMPressure, TemperatureViscosity
Thermal Conductivity from Pressure and Temperature H2oPTKPressure, TemperatureThermal Conductivity
Temperature from Pressure and Enthalpy H2oPHTPressure, EnthalpyTemperature
Entropy from Pressure and Enthalpy H2oPHSPressure, EnthalpyEntropy
Specific Internal Energy from Pressure and Enthalpy H2oPHUPressure, EnthalpySpecific Internal Energy
Specific Volume from Pressure and Enthalpy H2oPHVPressure, EnthalpySpecific Volume
Isobaric Heat Capacity from Pressure and Enthalpy H2oPHCpPressure, EnthalpyIsobaric Heat Capacity
Isochoric Heat Capacity from Pressure and Enthalpy H2oPHCvPressure, EnthalpyIsochoric Heat Capacity
Speed of Sound from Pressure and Enthalpy H2oPHWPressure, EnthalpySpeed of Sound
Viscosity from Pressure and Enthalpy H2oPHMPressure, EnthalpyViscosity
Thermal Conductivity from Pressure and Enthalpy H2oPHKPressure, EnthalpyThermal Conductivity
Quality from Pressure and Enthalpy H2oPHQPressure, EnthalpyQuality
Temperature from Pressure and Entropy H2oPSTPressure, EntropyTemperature
Enthalpy from Pressure and Entropy H2oPSHPressure, EntropyEnthalpy
Specific Internal Energy from Pressure and Entropy H2oPSUPressure, EntropySpecific Internal Energy
Specific Volume from Pressure and Entropy H2oPSVPressure, EntropySpecific Volume
Isobaric Heat Capacity from Pressure and Entropy H2oPSCpPressure, EntropyIsobaric Heat Capacity
Isochoric Heat Capacity from Pressure and Entropy H2oPSCvPressure, EntropyIsochoric Heat Capacity
Speed of Sound from Pressure and Entropy H2oPSWPressure, EntropySpeed of Sound
Viscosity from Pressure and Entropy H2oPSMPressure, EntropyViscosity
Thermal Conductivity from Pressure and Entropy H2oPSKPressure, EntropyThermal Conductivity
Quality from Pressure and Entropy H2oPSQPressure, EntropyQuality
Saturation Temperature from Pressure H2oPTPressureSaturation Temperature
Saturation Pressure from Temperature H2oTPTemperatureSaturation Pressure
Surface Tension from Temperature H2oTYTemperatureSurface Tension
Enthalpy from Pressure and Quality H2oPQHPressure, QualityEnthalpy
Entropy from Pressure and Quality H2oPQSPressure, QualityEntropy
Specific Internal Energy from Pressure and Quality H2oPQUPressure, QualitySpecific Internal Energy
Specific Volume from Pressure and Quality H2oPQVPressure, QualitySpecific Volume
Isobaric Heat Capacity from Pressure and Quality H2oPQCpPressure, QualityIsobaric Heat Capacity
Isochoric Heat Capacity from Pressure and Quality H2oPQCvPressure, QualityIsochoric Heat Capacity
Enthalpy from Temperature and Quality H2oTQHTemperature, QualityEnthalpy
Entropy from Temperature and Quality H2oTQSTemperature, QualityEntropy
Specific Internal Energy from Temperature and Quality H2oTQUTemperature, QualitySpecific Internal Energy
Specific Volume from Temperature and Quality H2oTQVTemperature, QualitySpecific Volume
Isobaric Heat Capacity from Temperature and Quality H2oTQCpTemperature, QualityIsobaric Heat Capacity
Isochoric Heat Capacity from Temperature and Quality H2oTQCvTemperature, QualityIsochoric Heat Capacity
Pressure from Enthalpy and Entropy H2oHSPEnthalpy, EntropyPressure
Temperature from Enthalpy and Entropy H2oHSTEnthalpy, EntropyTemperature
Quality from Enthalpy and Entropy H2oHSQEnthalpy, EntropyQuality
Specific Internal Energy from Enthalpy and Entropy H2oHSUEnthalpy, EntropySpecific Internal Energy
Specific Volume from Enthalpy and Entropy H2oHSVEnthalpy, EntropySpecific Volume
Isobaric Heat Capacity from Enthalpy and Entropy H2oHSCpEnthalpy, EntropyIsobaric Heat Capacity
Isochoric Heat Capacity from Enthalpy and Entropy H2oHSCvEnthalpy, EntropyIsochoric Heat Capacity
Speed of Sound from Enthalpy and Entropy H2oHSWEnthalpy, EntropySpeed of Sound
Viscosity from Enthalpy and Entropy H2oHSMEnthalpy, EntropyViscosity
Thermal Conductivity from Enthalpy and Entropy H2oHSKEnthalpy, EntropyThermal Conductivity
(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume from Pressure and Temperature dH2oPT_dPdT_VPressure, Temperature(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume
(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy from Pressure and Temperature dH2oPT_dPdT_UPressure, Temperature(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy
(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy from Pressure and Temperature dH2oPT_dPdT_HPressure, Temperature(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy
(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy from Pressure and Temperature dH2oPT_dPdT_SPressure, Temperature(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy
(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature from Pressure and Temperature dH2oPT_dPdV_TPressure, Temperature(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature
(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy from Pressure and Temperature dH2oPT_dPdV_UPressure, Temperature(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy
(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy from Pressure and Temperature dH2oPT_dPdV_HPressure, Temperature(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy
(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy from Pressure and Temperature dH2oPT_dPdV_SPressure, Temperature(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy
(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature from Pressure and Temperature dH2oPT_dPdU_TPressure, Temperature(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature
(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume from Pressure and Temperature dH2oPT_dPdU_VPressure, Temperature(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume
(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy from Pressure and Temperature dH2oPT_dPdU_HPressure, Temperature(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy
(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy from Pressure and Temperature dH2oPT_dPdU_SPressure, Temperature(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy
(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature from Pressure and Temperature dH2oPT_dPdH_TPressure, Temperature(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature
(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume from Pressure and Temperature dH2oPT_dPdH_VPressure, Temperature(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume
(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy from Pressure and Temperature dH2oPT_dPdH_UPressure, Temperature(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy
(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy from Pressure and Temperature dH2oPT_dPdH_SPressure, Temperature(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy
(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature from Pressure and Temperature dH2oPT_dPdS_TPressure, Temperature(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature
(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume from Pressure and Temperature dH2oPT_dPdS_VPressure, Temperature(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume
(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy from Pressure and Temperature dH2oPT_dPdS_UPressure, Temperature(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy
(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy from Pressure and Temperature dH2oPT_dPdS_HPressure, Temperature(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy
(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume from Pressure and Temperature dH2oPT_dTdP_VPressure, Temperature(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume
(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy from Pressure and Temperature dH2oPT_dTdP_UPressure, Temperature(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy
(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy from Pressure and Temperature dH2oPT_dTdP_HPressure, Temperature(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy
(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy from Pressure and Temperature dH2oPT_dTdP_SPressure, Temperature(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy
(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure from Pressure and Temperature dH2oPT_dTdV_PPressure, Temperature(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure
(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy from Pressure and Temperature dH2oPT_dTdV_UPressure, Temperature(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy
(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy from Pressure and Temperature dH2oPT_dTdV_HPressure, Temperature(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy
(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy from Pressure and Temperature dH2oPT_dTdV_SPressure, Temperature(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy
(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure from Pressure and Temperature dH2oPT_dTdU_PPressure, Temperature(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure
(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume from Pressure and Temperature dH2oPT_dTdU_VPressure, Temperature(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume
(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy from Pressure and Temperature dH2oPT_dTdU_HPressure, Temperature(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy
(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy from Pressure and Temperature dH2oPT_dTdU_SPressure, Temperature(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy
(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure from Pressure and Temperature dH2oPT_dTdH_PPressure, Temperature(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure
(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume from Pressure and Temperature dH2oPT_dTdH_VPressure, Temperature(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume
(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy from Pressure and Temperature dH2oPT_dTdH_UPressure, Temperature(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy
(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy from Pressure and Temperature dH2oPT_dTdH_SPressure, Temperature(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy
(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure from Pressure and Temperature dH2oPT_dTdS_PPressure, Temperature(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure
(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume from Pressure and Temperature dH2oPT_dTdS_VPressure, Temperature(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume
(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy from Pressure and Temperature dH2oPT_dTdS_UPressure, Temperature(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy
(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy from Pressure and Temperature dH2oPT_dTdS_HPressure, Temperature(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy
(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature from Pressure and Temperature dH2oPT_dVdP_TPressure, Temperature(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature
(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy from Pressure and Temperature dH2oPT_dVdP_UPressure, Temperature(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy
(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy from Pressure and Temperature dH2oPT_dVdP_HPressure, Temperature(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy
(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy from Pressure and Temperature dH2oPT_dVdP_SPressure, Temperature(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy
(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure from Pressure and Temperature dH2oPT_dVdT_PPressure, Temperature(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure
(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy from Pressure and Temperature dH2oPT_dVdT_UPressure, Temperature(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy
(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy from Pressure and Temperature dH2oPT_dVdT_HPressure, Temperature(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy
(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy from Pressure and Temperature dH2oPT_dVdT_SPressure, Temperature(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy
(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure from Pressure and Temperature dH2oPT_dVdU_PPressure, Temperature(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure
(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature from Pressure and Temperature dH2oPT_dVdU_TPressure, Temperature(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature
(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy from Pressure and Temperature dH2oPT_dVdU_HPressure, Temperature(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy
(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy from Pressure and Temperature dH2oPT_dVdU_SPressure, Temperature(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy
(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure from Pressure and Temperature dH2oPT_dVdH_PPressure, Temperature(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure
(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature from Pressure and Temperature dH2oPT_dVdH_TPressure, Temperature(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature
(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy from Pressure and Temperature dH2oPT_dVdH_UPressure, Temperature(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy
(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy from Pressure and Temperature dH2oPT_dVdH_SPressure, Temperature(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy
(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure from Pressure and Temperature dH2oPT_dVdS_PPressure, Temperature(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure
(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature from Pressure and Temperature dH2oPT_dVdS_TPressure, Temperature(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature
(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy from Pressure and Temperature dH2oPT_dVdS_UPressure, Temperature(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy
(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy from Pressure and Temperature dH2oPT_dVdS_HPressure, Temperature(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy
(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature from Pressure and Temperature dH2oPT_dUdP_TPressure, Temperature(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature
(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume from Pressure and Temperature dH2oPT_dUdP_VPressure, Temperature(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume
(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy from Pressure and Temperature dH2oPT_dUdP_HPressure, Temperature(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy
(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy from Pressure and Temperature dH2oPT_dUdP_SPressure, Temperature(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy
(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure from Pressure and Temperature dH2oPT_dUdT_PPressure, Temperature(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure
(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume from Pressure and Temperature dH2oPT_dUdT_VPressure, Temperature(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume
(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy from Pressure and Temperature dH2oPT_dUdT_HPressure, Temperature(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy
(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy from Pressure and Temperature dH2oPT_dUdT_SPressure, Temperature(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy
(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure from Pressure and Temperature dH2oPT_dUdV_PPressure, Temperature(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure
(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature from Pressure and Temperature dH2oPT_dUdV_TPressure, Temperature(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature
(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy from Pressure and Temperature dH2oPT_dUdV_HPressure, Temperature(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy
(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy from Pressure and Temperature dH2oPT_dUdV_SPressure, Temperature(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy
(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure from Pressure and Temperature dH2oPT_dUdH_PPressure, Temperature(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure
(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature from Pressure and Temperature dH2oPT_dUdH_TPressure, Temperature(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature
(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume from Pressure and Temperature dH2oPT_dUdH_VPressure, Temperature(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume
(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy from Pressure and Temperature dH2oPT_dUdH_SPressure, Temperature(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy
(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure from Pressure and Temperature dH2oPT_dUdS_PPressure, Temperature(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure
(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature from Pressure and Temperature dH2oPT_dUdS_TPressure, Temperature(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature
(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume from Pressure and Temperature dH2oPT_dUdS_VPressure, Temperature(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume
(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy from Pressure and Temperature dH2oPT_dUdS_HPressure, Temperature(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy
(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature from Pressure and Temperature dH2oPT_dHdP_TPressure, Temperature(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature
(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume from Pressure and Temperature dH2oPT_dHdP_VPressure, Temperature(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume
(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy from Pressure and Temperature dH2oPT_dHdP_UPressure, Temperature(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy
(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy from Pressure and Temperature dH2oPT_dHdP_SPressure, Temperature(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy
(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure from Pressure and Temperature dH2oPT_dHdT_PPressure, Temperature(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure
(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume from Pressure and Temperature dH2oPT_dHdT_VPressure, Temperature(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume
(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy from Pressure and Temperature dH2oPT_dHdT_UPressure, Temperature(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy
(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy from Pressure and Temperature dH2oPT_dHdT_SPressure, Temperature(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy
(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure from Pressure and Temperature dH2oPT_dHdV_PPressure, Temperature(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure
(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature from Pressure and Temperature dH2oPT_dHdV_TPressure, Temperature(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature
(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy from Pressure and Temperature dH2oPT_dHdV_UPressure, Temperature(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy
(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy from Pressure and Temperature dH2oPT_dHdV_SPressure, Temperature(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy
(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure from Pressure and Temperature dH2oPT_dHdU_PPressure, Temperature(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure
(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature from Pressure and Temperature dH2oPT_dHdU_TPressure, Temperature(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature
(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume from Pressure and Temperature dH2oPT_dHdU_VPressure, Temperature(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume
(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy from Pressure and Temperature dH2oPT_dHdU_SPressure, Temperature(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy
(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure from Pressure and Temperature dH2oPT_dHdS_PPressure, Temperature(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure
(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature from Pressure and Temperature dH2oPT_dHdS_TPressure, Temperature(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature
(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume from Pressure and Temperature dH2oPT_dHdS_VPressure, Temperature(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume
(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy from Pressure and Temperature dH2oPT_dHdS_UPressure, Temperature(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy
(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature from Pressure and Temperature dH2oPT_dSdP_TPressure, Temperature(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature
(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume from Pressure and Temperature dH2oPT_dSdP_VPressure, Temperature(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume
(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy from Pressure and Temperature dH2oPT_dSdP_UPressure, Temperature(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy
(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy from Pressure and Temperature dH2oPT_dSdP_HPressure, Temperature(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy
(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure from Pressure and Temperature dH2oPT_dSdT_PPressure, Temperature(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure
(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume from Pressure and Temperature dH2oPT_dSdT_VPressure, Temperature(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume
(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy from Pressure and Temperature dH2oPT_dSdT_UPressure, Temperature(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy
(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy from Pressure and Temperature dH2oPT_dSdT_HPressure, Temperature(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy
(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure from Pressure and Temperature dH2oPT_dSdV_PPressure, Temperature(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure
(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature from Pressure and Temperature dH2oPT_dSdV_TPressure, Temperature(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature
(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy from Pressure and Temperature dH2oPT_dSdV_UPressure, Temperature(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy
(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy from Pressure and Temperature dH2oPT_dSdV_HPressure, Temperature(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy
(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure from Pressure and Temperature dH2oPT_dSdU_PPressure, Temperature(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure
(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature from Pressure and Temperature dH2oPT_dSdU_TPressure, Temperature(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature
(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume from Pressure and Temperature dH2oPT_dSdU_VPressure, Temperature(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume
(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy from Pressure and Temperature dH2oPT_dSdU_HPressure, Temperature(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy
(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure from Pressure and Temperature dH2oPT_dSdH_PPressure, Temperature(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure
(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature from Pressure and Temperature dH2oPT_dSdH_TPressure, Temperature(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature
(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume from Pressure and Temperature dH2oPT_dSdH_VPressure, Temperature(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume
(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy from Pressure and Temperature dH2oPT_dSdH_UPressure, Temperature(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy
(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume from Pressure and Enthalpy dH2oPH_dPdT_VPressure, Enthalpy(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume
(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy from Pressure and Enthalpy dH2oPH_dPdT_UPressure, Enthalpy(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy
(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy from Pressure and Enthalpy dH2oPH_dPdT_HPressure, Enthalpy(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy
(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy from Pressure and Enthalpy dH2oPH_dPdT_SPressure, Enthalpy(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy
(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature from Pressure and Enthalpy dH2oPH_dPdV_TPressure, Enthalpy(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature
(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy from Pressure and Enthalpy dH2oPH_dPdV_UPressure, Enthalpy(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy
(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy from Pressure and Enthalpy dH2oPH_dPdV_HPressure, Enthalpy(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy
(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy from Pressure and Enthalpy dH2oPH_dPdV_SPressure, Enthalpy(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy
(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature from Pressure and Enthalpy dH2oPH_dPdU_TPressure, Enthalpy(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature
(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume from Pressure and Enthalpy dH2oPH_dPdU_VPressure, Enthalpy(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume
(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dPdU_HPressure, Enthalpy(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy
(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy from Pressure and Enthalpy dH2oPH_dPdU_SPressure, Enthalpy(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy
(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature from Pressure and Enthalpy dH2oPH_dPdH_TPressure, Enthalpy(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature
(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume from Pressure and Enthalpy dH2oPH_dPdH_VPressure, Enthalpy(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume
(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dPdH_UPressure, Enthalpy(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy
(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy from Pressure and Enthalpy dH2oPH_dPdH_SPressure, Enthalpy(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy
(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature from Pressure and Enthalpy dH2oPH_dPdS_TPressure, Enthalpy(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature
(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume from Pressure and Enthalpy dH2oPH_dPdS_VPressure, Enthalpy(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume
(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dPdS_UPressure, Enthalpy(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy
(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dPdS_HPressure, Enthalpy(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy
(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume from Pressure and Enthalpy dH2oPH_dTdP_VPressure, Enthalpy(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume
(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy from Pressure and Enthalpy dH2oPH_dTdP_UPressure, Enthalpy(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy
(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy from Pressure and Enthalpy dH2oPH_dTdP_HPressure, Enthalpy(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy
(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy from Pressure and Enthalpy dH2oPH_dTdP_SPressure, Enthalpy(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy
(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure from Pressure and Enthalpy dH2oPH_dTdV_PPressure, Enthalpy(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure
(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy from Pressure and Enthalpy dH2oPH_dTdV_UPressure, Enthalpy(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy
(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy from Pressure and Enthalpy dH2oPH_dTdV_HPressure, Enthalpy(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy
(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy from Pressure and Enthalpy dH2oPH_dTdV_SPressure, Enthalpy(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy
(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure from Pressure and Enthalpy dH2oPH_dTdU_PPressure, Enthalpy(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure
(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume from Pressure and Enthalpy dH2oPH_dTdU_VPressure, Enthalpy(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume
(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dTdU_HPressure, Enthalpy(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy
(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy from Pressure and Enthalpy dH2oPH_dTdU_SPressure, Enthalpy(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy
(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure from Pressure and Enthalpy dH2oPH_dTdH_PPressure, Enthalpy(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure
(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume from Pressure and Enthalpy dH2oPH_dTdH_VPressure, Enthalpy(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume
(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dTdH_UPressure, Enthalpy(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy
(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy from Pressure and Enthalpy dH2oPH_dTdH_SPressure, Enthalpy(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy
(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure from Pressure and Enthalpy dH2oPH_dTdS_PPressure, Enthalpy(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure
(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume from Pressure and Enthalpy dH2oPH_dTdS_VPressure, Enthalpy(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume
(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dTdS_UPressure, Enthalpy(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy
(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dTdS_HPressure, Enthalpy(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy
(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature from Pressure and Enthalpy dH2oPH_dVdP_TPressure, Enthalpy(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature
(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy from Pressure and Enthalpy dH2oPH_dVdP_UPressure, Enthalpy(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy
(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy from Pressure and Enthalpy dH2oPH_dVdP_HPressure, Enthalpy(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy
(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy from Pressure and Enthalpy dH2oPH_dVdP_SPressure, Enthalpy(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy
(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure from Pressure and Enthalpy dH2oPH_dVdT_PPressure, Enthalpy(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure
(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy from Pressure and Enthalpy dH2oPH_dVdT_UPressure, Enthalpy(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy
(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy from Pressure and Enthalpy dH2oPH_dVdT_HPressure, Enthalpy(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy
(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy from Pressure and Enthalpy dH2oPH_dVdT_SPressure, Enthalpy(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy
(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure from Pressure and Enthalpy dH2oPH_dVdU_PPressure, Enthalpy(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure
(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature from Pressure and Enthalpy dH2oPH_dVdU_TPressure, Enthalpy(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature
(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dVdU_HPressure, Enthalpy(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy
(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy from Pressure and Enthalpy dH2oPH_dVdU_SPressure, Enthalpy(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy
(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure from Pressure and Enthalpy dH2oPH_dVdH_PPressure, Enthalpy(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure
(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature from Pressure and Enthalpy dH2oPH_dVdH_TPressure, Enthalpy(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature
(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dVdH_UPressure, Enthalpy(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy
(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy from Pressure and Enthalpy dH2oPH_dVdH_SPressure, Enthalpy(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy
(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure from Pressure and Enthalpy dH2oPH_dVdS_PPressure, Enthalpy(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure
(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature from Pressure and Enthalpy dH2oPH_dVdS_TPressure, Enthalpy(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature
(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dVdS_UPressure, Enthalpy(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy
(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dVdS_HPressure, Enthalpy(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy
(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature from Pressure and Enthalpy dH2oPH_dUdP_TPressure, Enthalpy(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature
(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume from Pressure and Enthalpy dH2oPH_dUdP_VPressure, Enthalpy(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume
(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy from Pressure and Enthalpy dH2oPH_dUdP_HPressure, Enthalpy(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy
(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy from Pressure and Enthalpy dH2oPH_dUdP_SPressure, Enthalpy(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy
(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure from Pressure and Enthalpy dH2oPH_dUdT_PPressure, Enthalpy(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure
(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume from Pressure and Enthalpy dH2oPH_dUdT_VPressure, Enthalpy(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume
(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy from Pressure and Enthalpy dH2oPH_dUdT_HPressure, Enthalpy(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy
(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy from Pressure and Enthalpy dH2oPH_dUdT_SPressure, Enthalpy(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy
(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure from Pressure and Enthalpy dH2oPH_dUdV_PPressure, Enthalpy(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure
(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature from Pressure and Enthalpy dH2oPH_dUdV_TPressure, Enthalpy(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature
(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy from Pressure and Enthalpy dH2oPH_dUdV_HPressure, Enthalpy(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy
(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy from Pressure and Enthalpy dH2oPH_dUdV_SPressure, Enthalpy(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy
(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure from Pressure and Enthalpy dH2oPH_dUdH_PPressure, Enthalpy(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure
(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature from Pressure and Enthalpy dH2oPH_dUdH_TPressure, Enthalpy(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature
(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume from Pressure and Enthalpy dH2oPH_dUdH_VPressure, Enthalpy(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume
(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy from Pressure and Enthalpy dH2oPH_dUdH_SPressure, Enthalpy(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy
(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure from Pressure and Enthalpy dH2oPH_dUdS_PPressure, Enthalpy(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure
(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature from Pressure and Enthalpy dH2oPH_dUdS_TPressure, Enthalpy(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature
(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume from Pressure and Enthalpy dH2oPH_dUdS_VPressure, Enthalpy(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume
(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dUdS_HPressure, Enthalpy(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy
(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature from Pressure and Enthalpy dH2oPH_dHdP_TPressure, Enthalpy(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature
(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume from Pressure and Enthalpy dH2oPH_dHdP_VPressure, Enthalpy(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume
(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy from Pressure and Enthalpy dH2oPH_dHdP_UPressure, Enthalpy(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy
(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy from Pressure and Enthalpy dH2oPH_dHdP_SPressure, Enthalpy(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy
(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure from Pressure and Enthalpy dH2oPH_dHdT_PPressure, Enthalpy(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure
(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume from Pressure and Enthalpy dH2oPH_dHdT_VPressure, Enthalpy(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume
(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy from Pressure and Enthalpy dH2oPH_dHdT_UPressure, Enthalpy(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy
(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy from Pressure and Enthalpy dH2oPH_dHdT_SPressure, Enthalpy(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy
(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure from Pressure and Enthalpy dH2oPH_dHdV_PPressure, Enthalpy(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure
(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature from Pressure and Enthalpy dH2oPH_dHdV_TPressure, Enthalpy(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature
(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy from Pressure and Enthalpy dH2oPH_dHdV_UPressure, Enthalpy(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy
(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy from Pressure and Enthalpy dH2oPH_dHdV_SPressure, Enthalpy(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy
(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure from Pressure and Enthalpy dH2oPH_dHdU_PPressure, Enthalpy(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure
(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature from Pressure and Enthalpy dH2oPH_dHdU_TPressure, Enthalpy(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature
(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume from Pressure and Enthalpy dH2oPH_dHdU_VPressure, Enthalpy(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume
(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy from Pressure and Enthalpy dH2oPH_dHdU_SPressure, Enthalpy(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy
(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure from Pressure and Enthalpy dH2oPH_dHdS_PPressure, Enthalpy(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure
(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature from Pressure and Enthalpy dH2oPH_dHdS_TPressure, Enthalpy(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature
(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume from Pressure and Enthalpy dH2oPH_dHdS_VPressure, Enthalpy(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume
(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dHdS_UPressure, Enthalpy(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy
(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature from Pressure and Enthalpy dH2oPH_dSdP_TPressure, Enthalpy(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature
(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume from Pressure and Enthalpy dH2oPH_dSdP_VPressure, Enthalpy(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume
(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy from Pressure and Enthalpy dH2oPH_dSdP_UPressure, Enthalpy(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy
(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy from Pressure and Enthalpy dH2oPH_dSdP_HPressure, Enthalpy(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy
(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure from Pressure and Enthalpy dH2oPH_dSdT_PPressure, Enthalpy(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure
(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume from Pressure and Enthalpy dH2oPH_dSdT_VPressure, Enthalpy(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume
(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy from Pressure and Enthalpy dH2oPH_dSdT_UPressure, Enthalpy(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy
(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy from Pressure and Enthalpy dH2oPH_dSdT_HPressure, Enthalpy(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy
(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure from Pressure and Enthalpy dH2oPH_dSdV_PPressure, Enthalpy(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure
(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature from Pressure and Enthalpy dH2oPH_dSdV_TPressure, Enthalpy(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature
(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy from Pressure and Enthalpy dH2oPH_dSdV_UPressure, Enthalpy(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy
(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy from Pressure and Enthalpy dH2oPH_dSdV_HPressure, Enthalpy(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy
(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure from Pressure and Enthalpy dH2oPH_dSdU_PPressure, Enthalpy(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure
(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature from Pressure and Enthalpy dH2oPH_dSdU_TPressure, Enthalpy(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature
(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume from Pressure and Enthalpy dH2oPH_dSdU_VPressure, Enthalpy(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume
(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy from Pressure and Enthalpy dH2oPH_dSdU_HPressure, Enthalpy(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy
(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure from Pressure and Enthalpy dH2oPH_dSdH_PPressure, Enthalpy(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure
(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature from Pressure and Enthalpy dH2oPH_dSdH_TPressure, Enthalpy(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature
(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume from Pressure and Enthalpy dH2oPH_dSdH_VPressure, Enthalpy(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume
(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy from Pressure and Enthalpy dH2oPH_dSdH_UPressure, Enthalpy(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy
(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume from Pressure and Entropy dH2oPS_dPdT_VPressure, Entropy(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume
(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy from Pressure and Entropy dH2oPS_dPdT_UPressure, Entropy(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy
(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy from Pressure and Entropy dH2oPS_dPdT_HPressure, Entropy(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy
(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy from Pressure and Entropy dH2oPS_dPdT_SPressure, Entropy(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy
(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature from Pressure and Entropy dH2oPS_dPdV_TPressure, Entropy(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature
(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy from Pressure and Entropy dH2oPS_dPdV_UPressure, Entropy(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy
(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy from Pressure and Entropy dH2oPS_dPdV_HPressure, Entropy(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy
(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy from Pressure and Entropy dH2oPS_dPdV_SPressure, Entropy(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy
(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature from Pressure and Entropy dH2oPS_dPdU_TPressure, Entropy(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature
(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume from Pressure and Entropy dH2oPS_dPdU_VPressure, Entropy(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume
(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy from Pressure and Entropy dH2oPS_dPdU_HPressure, Entropy(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy
(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy from Pressure and Entropy dH2oPS_dPdU_SPressure, Entropy(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy
(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature from Pressure and Entropy dH2oPS_dPdH_TPressure, Entropy(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature
(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume from Pressure and Entropy dH2oPS_dPdH_VPressure, Entropy(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume
(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy from Pressure and Entropy dH2oPS_dPdH_UPressure, Entropy(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy
(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy from Pressure and Entropy dH2oPS_dPdH_SPressure, Entropy(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy
(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature from Pressure and Entropy dH2oPS_dPdS_TPressure, Entropy(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature
(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume from Pressure and Entropy dH2oPS_dPdS_VPressure, Entropy(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume
(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy from Pressure and Entropy dH2oPS_dPdS_UPressure, Entropy(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy
(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy from Pressure and Entropy dH2oPS_dPdS_HPressure, Entropy(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy
(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume from Pressure and Entropy dH2oPS_dTdP_VPressure, Entropy(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume
(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy from Pressure and Entropy dH2oPS_dTdP_UPressure, Entropy(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy
(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy from Pressure and Entropy dH2oPS_dTdP_HPressure, Entropy(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy
(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy from Pressure and Entropy dH2oPS_dTdP_SPressure, Entropy(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy
(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure from Pressure and Entropy dH2oPS_dTdV_PPressure, Entropy(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure
(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy from Pressure and Entropy dH2oPS_dTdV_UPressure, Entropy(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy
(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy from Pressure and Entropy dH2oPS_dTdV_HPressure, Entropy(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy
(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy from Pressure and Entropy dH2oPS_dTdV_SPressure, Entropy(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy
(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure from Pressure and Entropy dH2oPS_dTdU_PPressure, Entropy(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure
(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume from Pressure and Entropy dH2oPS_dTdU_VPressure, Entropy(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume
(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy from Pressure and Entropy dH2oPS_dTdU_HPressure, Entropy(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy
(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy from Pressure and Entropy dH2oPS_dTdU_SPressure, Entropy(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy
(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure from Pressure and Entropy dH2oPS_dTdH_PPressure, Entropy(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure
(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume from Pressure and Entropy dH2oPS_dTdH_VPressure, Entropy(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume
(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy from Pressure and Entropy dH2oPS_dTdH_UPressure, Entropy(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy
(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy from Pressure and Entropy dH2oPS_dTdH_SPressure, Entropy(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy
(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure from Pressure and Entropy dH2oPS_dTdS_PPressure, Entropy(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure
(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume from Pressure and Entropy dH2oPS_dTdS_VPressure, Entropy(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume
(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy from Pressure and Entropy dH2oPS_dTdS_UPressure, Entropy(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy
(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy from Pressure and Entropy dH2oPS_dTdS_HPressure, Entropy(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy
(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature from Pressure and Entropy dH2oPS_dVdP_TPressure, Entropy(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature
(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy from Pressure and Entropy dH2oPS_dVdP_UPressure, Entropy(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy
(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy from Pressure and Entropy dH2oPS_dVdP_HPressure, Entropy(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy
(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy from Pressure and Entropy dH2oPS_dVdP_SPressure, Entropy(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy
(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure from Pressure and Entropy dH2oPS_dVdT_PPressure, Entropy(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure
(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy from Pressure and Entropy dH2oPS_dVdT_UPressure, Entropy(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy
(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy from Pressure and Entropy dH2oPS_dVdT_HPressure, Entropy(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy
(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy from Pressure and Entropy dH2oPS_dVdT_SPressure, Entropy(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy
(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure from Pressure and Entropy dH2oPS_dVdU_PPressure, Entropy(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure
(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature from Pressure and Entropy dH2oPS_dVdU_TPressure, Entropy(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature
(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy from Pressure and Entropy dH2oPS_dVdU_HPressure, Entropy(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy
(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy from Pressure and Entropy dH2oPS_dVdU_SPressure, Entropy(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy
(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure from Pressure and Entropy dH2oPS_dVdH_PPressure, Entropy(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure
(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature from Pressure and Entropy dH2oPS_dVdH_TPressure, Entropy(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature
(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy from Pressure and Entropy dH2oPS_dVdH_UPressure, Entropy(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy
(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy from Pressure and Entropy dH2oPS_dVdH_SPressure, Entropy(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy
(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure from Pressure and Entropy dH2oPS_dVdS_PPressure, Entropy(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure
(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature from Pressure and Entropy dH2oPS_dVdS_TPressure, Entropy(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature
(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy from Pressure and Entropy dH2oPS_dVdS_UPressure, Entropy(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy
(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy from Pressure and Entropy dH2oPS_dVdS_HPressure, Entropy(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy
(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature from Pressure and Entropy dH2oPS_dUdP_TPressure, Entropy(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature
(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume from Pressure and Entropy dH2oPS_dUdP_VPressure, Entropy(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume
(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy from Pressure and Entropy dH2oPS_dUdP_HPressure, Entropy(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy
(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy from Pressure and Entropy dH2oPS_dUdP_SPressure, Entropy(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy
(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure from Pressure and Entropy dH2oPS_dUdT_PPressure, Entropy(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure
(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume from Pressure and Entropy dH2oPS_dUdT_VPressure, Entropy(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume
(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy from Pressure and Entropy dH2oPS_dUdT_HPressure, Entropy(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy
(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy from Pressure and Entropy dH2oPS_dUdT_SPressure, Entropy(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy
(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure from Pressure and Entropy dH2oPS_dUdV_PPressure, Entropy(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure
(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature from Pressure and Entropy dH2oPS_dUdV_TPressure, Entropy(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature
(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy from Pressure and Entropy dH2oPS_dUdV_HPressure, Entropy(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy
(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy from Pressure and Entropy dH2oPS_dUdV_SPressure, Entropy(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy
(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure from Pressure and Entropy dH2oPS_dUdH_PPressure, Entropy(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure
(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature from Pressure and Entropy dH2oPS_dUdH_TPressure, Entropy(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature
(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume from Pressure and Entropy dH2oPS_dUdH_VPressure, Entropy(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume
(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy from Pressure and Entropy dH2oPS_dUdH_SPressure, Entropy(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy
(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure from Pressure and Entropy dH2oPS_dUdS_PPressure, Entropy(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure
(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature from Pressure and Entropy dH2oPS_dUdS_TPressure, Entropy(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature
(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume from Pressure and Entropy dH2oPS_dUdS_VPressure, Entropy(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume
(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy from Pressure and Entropy dH2oPS_dUdS_HPressure, Entropy(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy
(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature from Pressure and Entropy dH2oPS_dHdP_TPressure, Entropy(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature
(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume from Pressure and Entropy dH2oPS_dHdP_VPressure, Entropy(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume
(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy from Pressure and Entropy dH2oPS_dHdP_UPressure, Entropy(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy
(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy from Pressure and Entropy dH2oPS_dHdP_SPressure, Entropy(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy
(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure from Pressure and Entropy dH2oPS_dHdT_PPressure, Entropy(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure
(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume from Pressure and Entropy dH2oPS_dHdT_VPressure, Entropy(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume
(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy from Pressure and Entropy dH2oPS_dHdT_UPressure, Entropy(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy
(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy from Pressure and Entropy dH2oPS_dHdT_SPressure, Entropy(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy
(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure from Pressure and Entropy dH2oPS_dHdV_PPressure, Entropy(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure
(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature from Pressure and Entropy dH2oPS_dHdV_TPressure, Entropy(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature
(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy from Pressure and Entropy dH2oPS_dHdV_UPressure, Entropy(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy
(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy from Pressure and Entropy dH2oPS_dHdV_SPressure, Entropy(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy
(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure from Pressure and Entropy dH2oPS_dHdU_PPressure, Entropy(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure
(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature from Pressure and Entropy dH2oPS_dHdU_TPressure, Entropy(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature
(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume from Pressure and Entropy dH2oPS_dHdU_VPressure, Entropy(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume
(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy from Pressure and Entropy dH2oPS_dHdU_SPressure, Entropy(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy
(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure from Pressure and Entropy dH2oPS_dHdS_PPressure, Entropy(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure
(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature from Pressure and Entropy dH2oPS_dHdS_TPressure, Entropy(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature
(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume from Pressure and Entropy dH2oPS_dHdS_VPressure, Entropy(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume
(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy from Pressure and Entropy dH2oPS_dHdS_UPressure, Entropy(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy
(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature from Pressure and Entropy dH2oPS_dSdP_TPressure, Entropy(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature
(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume from Pressure and Entropy dH2oPS_dSdP_VPressure, Entropy(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume
(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy from Pressure and Entropy dH2oPS_dSdP_UPressure, Entropy(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy
(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy from Pressure and Entropy dH2oPS_dSdP_HPressure, Entropy(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy
(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure from Pressure and Entropy dH2oPS_dSdT_PPressure, Entropy(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure
(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume from Pressure and Entropy dH2oPS_dSdT_VPressure, Entropy(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume
(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy from Pressure and Entropy dH2oPS_dSdT_UPressure, Entropy(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy
(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy from Pressure and Entropy dH2oPS_dSdT_HPressure, Entropy(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy
(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure from Pressure and Entropy dH2oPS_dSdV_PPressure, Entropy(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure
(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature from Pressure and Entropy dH2oPS_dSdV_TPressure, Entropy(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature
(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy from Pressure and Entropy dH2oPS_dSdV_UPressure, Entropy(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy
(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy from Pressure and Entropy dH2oPS_dSdV_HPressure, Entropy(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy
(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure from Pressure and Entropy dH2oPS_dSdU_PPressure, Entropy(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure
(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature from Pressure and Entropy dH2oPS_dSdU_TPressure, Entropy(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature
(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume from Pressure and Entropy dH2oPS_dSdU_VPressure, Entropy(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume
(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy from Pressure and Entropy dH2oPS_dSdU_HPressure, Entropy(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy
(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure from Pressure and Entropy dH2oPS_dSdH_PPressure, Entropy(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure
(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature from Pressure and Entropy dH2oPS_dSdH_TPressure, Entropy(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature
(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume from Pressure and Entropy dH2oPS_dSdH_VPressure, Entropy(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume
(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy from Pressure and Entropy dH2oPS_dSdH_UPressure, Entropy(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy
(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume from Enthalpy and Entropy dH2oHS_dPdT_VEnthalpy, Entropy(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume
(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy from Enthalpy and Entropy dH2oHS_dPdT_UEnthalpy, Entropy(∂P/∂T)u = Partial Derivative of Pressure WRT Temperature at constant Internal Energy
(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy from Enthalpy and Entropy dH2oHS_dPdT_HEnthalpy, Entropy(∂P/∂T)h = Partial Derivative of Pressure WRT Temperature at constant Enthalpy
(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy from Enthalpy and Entropy dH2oHS_dPdT_SEnthalpy, Entropy(∂P/∂T)s = Partial Derivative of Pressure WRT Temperature at constant Entropy
(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature from Enthalpy and Entropy dH2oHS_dPdV_TEnthalpy, Entropy(∂P/∂V)t = Partial Derivative of Pressure WRT Volume at constant Temperature
(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy from Enthalpy and Entropy dH2oHS_dPdV_UEnthalpy, Entropy(∂P/∂V)u = Partial Derivative of Pressure WRT Volume at constant Internal Energy
(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy from Enthalpy and Entropy dH2oHS_dPdV_HEnthalpy, Entropy(∂P/∂V)h = Partial Derivative of Pressure WRT Volume at constant Enthalpy
(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy from Enthalpy and Entropy dH2oHS_dPdV_SEnthalpy, Entropy(∂P/∂V)s = Partial Derivative of Pressure WRT Volume at constant Entropy
(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature from Enthalpy and Entropy dH2oHS_dPdU_TEnthalpy, Entropy(∂P/∂U)t = Partial Derivative of Pressure WRT Internal Energy at constant Temperature
(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume from Enthalpy and Entropy dH2oHS_dPdU_VEnthalpy, Entropy(∂P/∂U)v = Partial Derivative of Pressure WRT Internal Energy at constant Volume
(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dPdU_HEnthalpy, Entropy(∂P/∂U)h = Partial Derivative of Pressure WRT Internal Energy at constant Enthalpy
(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy from Enthalpy and Entropy dH2oHS_dPdU_SEnthalpy, Entropy(∂P/∂U)s = Partial Derivative of Pressure WRT Internal Energy at constant Entropy
(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature from Enthalpy and Entropy dH2oHS_dPdH_TEnthalpy, Entropy(∂P/∂H)t = Partial Derivative of Pressure WRT Enthalpy at constant Temperature
(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume from Enthalpy and Entropy dH2oHS_dPdH_VEnthalpy, Entropy(∂P/∂H)v = Partial Derivative of Pressure WRT Enthalpy at constant Volume
(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dPdH_UEnthalpy, Entropy(∂P/∂H)u = Partial Derivative of Pressure WRT Enthalpy at constant Internal Energy
(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy from Enthalpy and Entropy dH2oHS_dPdH_SEnthalpy, Entropy(∂P/∂H)s = Partial Derivative of Pressure WRT Enthalpy at constant Entropy
(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature from Enthalpy and Entropy dH2oHS_dPdS_TEnthalpy, Entropy(∂P/∂S)t = Partial Derivative of Pressure WRT Entropy at constant Temperature
(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume from Enthalpy and Entropy dH2oHS_dPdS_VEnthalpy, Entropy(∂P/∂S)v = Partial Derivative of Pressure WRT Entropy at constant Volume
(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dPdS_UEnthalpy, Entropy(∂P/∂S)u = Partial Derivative of Pressure WRT Entropy at constant Internal Energy
(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dPdS_HEnthalpy, Entropy(∂P/∂S)h = Partial Derivative of Pressure WRT Entropy at constant Enthalpy
(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume from Enthalpy and Entropy dH2oHS_dTdP_VEnthalpy, Entropy(∂T/∂P)v = Partial Derivative of Temperature WRT Pressure at constant Volume
(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy from Enthalpy and Entropy dH2oHS_dTdP_UEnthalpy, Entropy(∂T/∂P)u = Partial Derivative of Temperature WRT Pressure at constant Internal Energy
(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy from Enthalpy and Entropy dH2oHS_dTdP_HEnthalpy, Entropy(∂T/∂P)h = Partial Derivative of Temperature WRT Pressure at constant Enthalpy
(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy from Enthalpy and Entropy dH2oHS_dTdP_SEnthalpy, Entropy(∂T/∂P)s = Partial Derivative of Temperature WRT Pressure at constant Entropy
(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure from Enthalpy and Entropy dH2oHS_dTdV_PEnthalpy, Entropy(∂T/∂V)p = Partial Derivative of Temperature WRT Volume at constant Pressure
(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy from Enthalpy and Entropy dH2oHS_dTdV_UEnthalpy, Entropy(∂T/∂V)u = Partial Derivative of Temperature WRT Volume at constant Internal Energy
(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy from Enthalpy and Entropy dH2oHS_dTdV_HEnthalpy, Entropy(∂T/∂V)h = Partial Derivative of Temperature WRT Volume at constant Enthalpy
(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy from Enthalpy and Entropy dH2oHS_dTdV_SEnthalpy, Entropy(∂T/∂V)s = Partial Derivative of Temperature WRT Volume at constant Entropy
(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure from Enthalpy and Entropy dH2oHS_dTdU_PEnthalpy, Entropy(∂T/∂U)p = Partial Derivative of Temperature WRT Internal Energy at constant Pressure
(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume from Enthalpy and Entropy dH2oHS_dTdU_VEnthalpy, Entropy(∂T/∂U)v = Partial Derivative of Temperature WRT åInternal Energy at constant Volume
(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dTdU_HEnthalpy, Entropy(∂T/∂U)h = Partial Derivative of Temperature WRT Internal Energy at constant Enthalpy
(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy from Enthalpy and Entropy dH2oHS_dTdU_SEnthalpy, Entropy(∂T/∂U)s = Partial Derivative of Temperature WRT Internal Energy at constant Entropy
(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure from Enthalpy and Entropy dH2oHS_dTdH_PEnthalpy, Entropy(∂T/∂H)p = Partial Derivative of Temperature WRT Enthalpy at constant Pressure
(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume from Enthalpy and Entropy dH2oHS_dTdH_VEnthalpy, Entropy(∂T/∂H)v = Partial Derivative of Temperature WRT Enthalpy at constant Volume
(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dTdH_UEnthalpy, Entropy(∂T/∂H)u = Partial Derivative of Temperature WRT Enthalpy at constant Internal Energy
(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy from Enthalpy and Entropy dH2oHS_dTdH_SEnthalpy, Entropy(∂T/∂H)s = Partial Derivative of Temperature WRT Enthalpy at constant Entropy
(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure from Enthalpy and Entropy dH2oHS_dTdS_PEnthalpy, Entropy(∂T/∂S)p = Partial Derivative of Temperature WRT Entropy at constant Pressure
(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume from Enthalpy and Entropy dH2oHS_dTdS_VEnthalpy, Entropy(∂T/∂S)v = Partial Derivative of Temperature WRT Entropy at constant Volume
(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dTdS_UEnthalpy, Entropy(∂T/∂S)u = Partial Derivative of Temperature WRT Entropy at constant Internal Energy
(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dTdS_HEnthalpy, Entropy(∂T/∂S)h = Partial Derivative of Temperature WRT Entropy at constant Enthalpy
(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature from Enthalpy and Entropy dH2oHS_dVdP_TEnthalpy, Entropy(∂V/∂P)t = Partial Derivative of Volume WRT Pressure at constant Temperature
(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy from Enthalpy and Entropy dH2oHS_dVdP_UEnthalpy, Entropy(∂V/∂P)u = Partial Derivative of Volume WRT Pressure at constant Internal Energy
(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy from Enthalpy and Entropy dH2oHS_dVdP_HEnthalpy, Entropy(∂V/∂P)h = Partial Derivative of Volume WRT Pressure at constant Enthalpy
(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy from Enthalpy and Entropy dH2oHS_dVdP_SEnthalpy, Entropy(∂V/∂P)s = Partial Derivative of Volume WRT Pressure at constant Entropy
(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure from Enthalpy and Entropy dH2oHS_dVdT_PEnthalpy, Entropy(∂V/∂T)p = Partial Derivative of Volume WRT Temperature at constant Pressure
(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy from Enthalpy and Entropy dH2oHS_dVdT_UEnthalpy, Entropy(∂V/∂T)u = Partial Derivative of Volume WRT Temperature at constant Internal Energy
(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy from Enthalpy and Entropy dH2oHS_dVdT_HEnthalpy, Entropy(∂V/∂T)h = Partial Derivative of Volume WRT Temperature at constant Enthalpy
(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy from Enthalpy and Entropy dH2oHS_dVdT_SEnthalpy, Entropy(∂V/∂T)s = Partial Derivative of Volume WRT Temperature at constant Entropy
(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure from Enthalpy and Entropy dH2oHS_dVdU_PEnthalpy, Entropy(∂V/∂U)p = Partial Derivative of Volume WRT Internal Energy at constant Pressure
(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature from Enthalpy and Entropy dH2oHS_dVdU_TEnthalpy, Entropy(∂V/∂U)t = Partial Derivative of Volume WRT Internal Energy at constant Temperature
(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dVdU_HEnthalpy, Entropy(∂V/∂U)h = Partial Derivative of Volume WRT Internal Energy at constant Enthalpy
(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy from Enthalpy and Entropy dH2oHS_dVdU_SEnthalpy, Entropy(∂V/∂U)s = Partial Derivative of Volume WRT Internal Energy at constant Entropy
(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure from Enthalpy and Entropy dH2oHS_dVdH_PEnthalpy, Entropy(∂V/∂H)p = Partial Derivative of Volume WRT Enthalpy at constant Pressure
(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature from Enthalpy and Entropy dH2oHS_dVdH_TEnthalpy, Entropy(∂V/∂H)t = Partial Derivative of Volume WRT Enthalpy at constant Temperature
(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dVdH_UEnthalpy, Entropy(∂V/∂H)u = Partial Derivative of Volume WRT Enthalpy at constant Internal Energy
(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy from Enthalpy and Entropy dH2oHS_dVdH_SEnthalpy, Entropy(∂V/∂H)s = Partial Derivative of Volume WRT Enthalpy at constant Entropy
(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure from Enthalpy and Entropy dH2oHS_dVdS_PEnthalpy, Entropy(∂V/∂S)p = Partial Derivative of Volume WRT Entropy at constant Pressure
(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature from Enthalpy and Entropy dH2oHS_dVdS_TEnthalpy, Entropy(∂V/∂S)t = Partial Derivative of Volume WRT Entropy at constant Temperature
(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dVdS_UEnthalpy, Entropy(∂V/∂S)u = Partial Derivative of Volume WRT Entropy at constant Internal Energy
(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dVdS_HEnthalpy, Entropy(∂V/∂S)h = Partial Derivative of Volume WRT Entropy at constant Enthalpy
(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature from Enthalpy and Entropy dH2oHS_dUdP_TEnthalpy, Entropy(∂U/∂P)t = Partial Derivative of Internal Energy WRT Pressure at constant Temperature
(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume from Enthalpy and Entropy dH2oHS_dUdP_VEnthalpy, Entropy(∂U/∂P)v = Partial Derivative of Internal Energy WRT Pressure at constant Volume
(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy from Enthalpy and Entropy dH2oHS_dUdP_HEnthalpy, Entropy(∂U/∂P)h = Partial Derivative of Internal Energy WRT Pressure at constant Enthalpy
(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy from Enthalpy and Entropy dH2oHS_dUdP_SEnthalpy, Entropy(∂U/∂P)s = Partial Derivative of Internal Energy WRT Pressure at constant Entropy
(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure from Enthalpy and Entropy dH2oHS_dUdT_PEnthalpy, Entropy(∂U/∂T)p = Partial Derivative of Internal Energy WRT Temperature at constant Pressure
(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume from Enthalpy and Entropy dH2oHS_dUdT_VEnthalpy, Entropy(∂U/∂T)v = Partial Derivative of Internal Energy WRT Temperature at constant Volume
(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy from Enthalpy and Entropy dH2oHS_dUdT_HEnthalpy, Entropy(∂U/∂T)h = Partial Derivative of Internal Energy WRT Temperature at constant Enthalpy
(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy from Enthalpy and Entropy dH2oHS_dUdT_SEnthalpy, Entropy(∂U/∂T)s = Partial Derivative of Internal Energy WRT Temperature at constant Entropy
(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure from Enthalpy and Entropy dH2oHS_dUdV_PEnthalpy, Entropy(∂U/∂V)p = Partial Derivative of Internal Energy WRT Volume at constant Pressure
(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature from Enthalpy and Entropy dH2oHS_dUdV_TEnthalpy, Entropy(∂U/∂V)t = Partial Derivative of Internal Energy WRT Volume at constant Temperature
(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy from Enthalpy and Entropy dH2oHS_dUdV_HEnthalpy, Entropy(∂U/∂V)h = Partial Derivative of Internal Energy WRT Volume at constant Enthalpy
(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy from Enthalpy and Entropy dH2oHS_dUdV_SEnthalpy, Entropy(∂U/∂V)s = Partial Derivative of Internal Energy WRT Volume at constant Entropy
(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure from Enthalpy and Entropy dH2oHS_dUdH_PEnthalpy, Entropy(∂U/∂H)p = Partial Derivative of Internal Energy WRT Enthalpy at constant Pressure
(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature from Enthalpy and Entropy dH2oHS_dUdH_TEnthalpy, Entropy(∂U/∂H)t = Partial Derivative of Internal Energy WRT Enthalpy at constant Temperature
(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume from Enthalpy and Entropy dH2oHS_dUdH_VEnthalpy, Entropy(∂U/∂H)v = Partial Derivative of Internal Energy WRT Enthalpy at constant Volume
(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy from Enthalpy and Entropy dH2oHS_dUdH_SEnthalpy, Entropy(∂U/∂H)s = Partial Derivative of Internal Energy WRT Enthalpy at constant Entropy
(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure from Enthalpy and Entropy dH2oHS_dUdS_PEnthalpy, Entropy(∂U/∂S)p = Partial Derivative of Internal Energy WRT Entropy at constant Pressure
(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature from Enthalpy and Entropy dH2oHS_dUdS_TEnthalpy, Entropy(∂U/∂S)t = Partial Derivative of Internal Energy WRT Entropy at constant Temperature
(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume from Enthalpy and Entropy dH2oHS_dUdS_VEnthalpy, Entropy(∂U/∂S)v = Partial Derivative of Internal Energy WRT Entropy at constant Volume
(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dUdS_HEnthalpy, Entropy(∂U/∂S)h = Partial Derivative of Internal Energy WRT Entropy at constant Enthalpy
(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature from Enthalpy and Entropy dH2oHS_dHdP_TEnthalpy, Entropy(∂H/∂P)t = Partial Derivative of Enthalpy WRT Pressure at constant Temperature
(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume from Enthalpy and Entropy dH2oHS_dHdP_VEnthalpy, Entropy(∂H/∂P)v = Partial Derivative of Enthalpy WRT Pressure at constant Volume
(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy from Enthalpy and Entropy dH2oHS_dHdP_UEnthalpy, Entropy(∂H/∂P)u = Partial Derivative of Enthalpy WRT Pressure at constant Internal Energy
(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy from Enthalpy and Entropy dH2oHS_dHdP_SEnthalpy, Entropy(∂H/∂P)s = Partial Derivative of Enthalpy WRT Pressure at constant Entropy
(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure from Enthalpy and Entropy dH2oHS_dHdT_PEnthalpy, Entropy(∂H/∂T)p = Partial Derivative of Enthalpy WRT Temperature at constant Pressure
(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume from Enthalpy and Entropy dH2oHS_dHdT_VEnthalpy, Entropy(∂H/∂T)v = Partial Derivative of Enthalpy WRT Temperature at constant Volume
(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy from Enthalpy and Entropy dH2oHS_dHdT_UEnthalpy, Entropy(∂H/∂T)u = Partial Derivative of Enthalpy WRT Temperature at constant Internal Energy
(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy from Enthalpy and Entropy dH2oHS_dHdT_SEnthalpy, Entropy(∂H/∂T)s = Partial Derivative of Enthalpy WRT Temperature at constant Entropy
(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure from Enthalpy and Entropy dH2oHS_dHdV_PEnthalpy, Entropy(∂H/∂V)p = Partial Derivative of Enthalpy WRT Volume at constant Pressure
(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature from Enthalpy and Entropy dH2oHS_dHdV_TEnthalpy, Entropy(∂H/∂V)t = Partial Derivative of Enthalpy WRT Volume at constant Temperature
(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy from Enthalpy and Entropy dH2oHS_dHdV_UEnthalpy, Entropy(∂H/∂V)u = Partial Derivative of Enthalpy WRT Volume at constant Internal Energy
(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy from Enthalpy and Entropy dH2oHS_dHdV_SEnthalpy, Entropy(∂H/∂V)s = Partial Derivative of Enthalpy WRT Volume at constant Entropy
(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure from Enthalpy and Entropy dH2oHS_dHdU_PEnthalpy, Entropy(∂H/∂U)p = Partial Derivative of Enthalpy WRT Internal Energy at constant Pressure
(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature from Enthalpy and Entropy dH2oHS_dHdU_TEnthalpy, Entropy(∂H/∂U)t = Partial Derivative of Enthalpy WRT Internal Energy at constant Temperature
(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume from Enthalpy and Entropy dH2oHS_dHdU_VEnthalpy, Entropy(∂H/∂U)v = Partial Derivative of Enthalpy WRT Internal Energy at constant Volume
(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy from Enthalpy and Entropy dH2oHS_dHdU_SEnthalpy, Entropy(∂H/∂U)s = Partial Derivative of Enthalpy WRT Internal Energy at constant Entropy
(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure from Enthalpy and Entropy dH2oHS_dHdS_PEnthalpy, Entropy(∂H/∂S)p = Partial Derivative of Enthalpy WRT Entropy at constant Pressure
(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature from Enthalpy and Entropy dH2oHS_dHdS_TEnthalpy, Entropy(∂H/∂S)t = Partial Derivative of Enthalpy WRT Entropy at constant Temperature
(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume from Enthalpy and Entropy dH2oHS_dHdS_VEnthalpy, Entropy(∂H/∂S)v = Partial Derivative of Enthalpy WRT Entropy at constant Volume
(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dHdS_UEnthalpy, Entropy(∂H/∂S)u = Partial Derivative of Enthalpy WRT Entropy at constant Internal Energy
(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature from Enthalpy and Entropy dH2oHS_dSdP_TEnthalpy, Entropy(∂S/∂P)t = Partial Derivative of Entropy WRT Pressure at constant Temperature
(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume from Enthalpy and Entropy dH2oHS_dSdP_VEnthalpy, Entropy(∂S/∂P)v = Partial Derivative of Entropy WRT Pressure at constant Volume
(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy from Enthalpy and Entropy dH2oHS_dSdP_UEnthalpy, Entropy(∂S/∂P)u = Partial Derivative of Entropy WRT Pressure at constant Internal Energy
(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy from Enthalpy and Entropy dH2oHS_dSdP_HEnthalpy, Entropy(∂S/∂P)h = Partial Derivative of Entropy WRT Pressure at constant Enthalpy
(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure from Enthalpy and Entropy dH2oHS_dSdT_PEnthalpy, Entropy(∂S/∂T)p = Partial Derivative of Entropy WRT Temperature at constant Pressure
(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume from Enthalpy and Entropy dH2oHS_dSdT_VEnthalpy, Entropy(∂S/∂T)v = Partial Derivative of Entropy WRT Temperature at constant Volume
(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy from Enthalpy and Entropy dH2oHS_dSdT_UEnthalpy, Entropy(∂S/∂T)u = Partial Derivative of Entropy WRT Temperature at constant Internal Energy
(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy from Enthalpy and Entropy dH2oHS_dSdT_HEnthalpy, Entropy(∂S/∂T)h = Partial Derivative of Entropy WRT Temperature at constant Enthalpy
(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure from Enthalpy and Entropy dH2oHS_dSdV_PEnthalpy, Entropy(∂S/∂V)p = Partial Derivative of Entropy WRT Volume at constant Pressure
(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature from Enthalpy and Entropy dH2oHS_dSdV_TEnthalpy, Entropy(∂S/∂V)t = Partial Derivative of Entropy WRT Volume at constant Temperature
(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy from Enthalpy and Entropy dH2oHS_dSdV_UEnthalpy, Entropy(∂S/∂V)u = Partial Derivative of Entropy WRT Volume at constant Internal Energy
(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy from Enthalpy and Entropy dH2oHS_dSdV_HEnthalpy, Entropy(∂S/∂V)h = Partial Derivative of Entropy WRT Volume at constant Enthalpy
(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure from Enthalpy and Entropy dH2oHS_dSdU_PEnthalpy, Entropy(∂S/∂U)p = Partial Derivative of Entropy WRT Internal Energy at constant Pressure
(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature from Enthalpy and Entropy dH2oHS_dSdU_TEnthalpy, Entropy(∂S/∂U)t = Partial Derivative of Entropy WRT Internal Energy at constant Temperature
(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume from Enthalpy and Entropy dH2oHS_dSdU_VEnthalpy, Entropy(∂S/∂U)v = Partial Derivative of Entropy WRT Internal Energy at constant Volume
(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy from Enthalpy and Entropy dH2oHS_dSdU_HEnthalpy, Entropy(∂S/∂U)h = Partial Derivative of Entropy WRT Internal Energy at constant Enthalpy
(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure from Enthalpy and Entropy dH2oHS_dSdH_PEnthalpy, Entropy(∂S/∂H)p = Partial Derivative of Entropy WRT Enthalpy at constant Pressure
(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature from Enthalpy and Entropy dH2oHS_dSdH_TEnthalpy, Entropy(∂S/∂H)t = Partial Derivative of Entropy WRT Enthalpy at constant Temperature
(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume from Enthalpy and Entropy dH2oHS_dSdH_VEnthalpy, Entropy(∂S/∂H)v = Partial Derivative of Entropy WRT Enthalpy at constant Volume
(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy from Enthalpy and Entropy dH2oHS_dSdH_UEnthalpy, Entropy(∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy