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Enthalpy from Pressure and Temperature | H2oPTH | Pressure, Temperature | Enthalpy |

Entropy from Pressure and Temperature | H2oPTS | Pressure, Temperature | Entropy |

Specific Internal Energy from Pressure and Temperature | H2oPTU | Pressure, Temperature | Specific Internal Energy |

Specific Volume from Pressure and Temperature | H2oPTV | Pressure, Temperature | Specific Volume |

Isobaric Heat Capacity from Pressure and Temperature | H2oPTCp | Pressure, Temperature | Isobaric Heat Capacity |

Isochoric Heat Capacity from Pressure and Temperature | H2oPTCv | Pressure, Temperature | Isochoric Heat Capacity |

Speed of Sound from Pressure and Temperature | H2oPTW | Pressure, Temperature | Speed of Sound |

Viscosity from Pressure and Temperature | H2oPTM | Pressure, Temperature | Viscosity |

Thermal Conductivity from Pressure and Temperature | H2oPTK | Pressure, Temperature | Thermal Conductivity |

Temperature from Pressure and Enthalpy | H2oPHT | Pressure, Enthalpy | Temperature |

Entropy from Pressure and Enthalpy | H2oPHS | Pressure, Enthalpy | Entropy |

Specific Internal Energy from Pressure and Enthalpy | H2oPHU | Pressure, Enthalpy | Specific Internal Energy |

Specific Volume from Pressure and Enthalpy | H2oPHV | Pressure, Enthalpy | Specific Volume |

Isobaric Heat Capacity from Pressure and Enthalpy | H2oPHCp | Pressure, Enthalpy | Isobaric Heat Capacity |

Isochoric Heat Capacity from Pressure and Enthalpy | H2oPHCv | Pressure, Enthalpy | Isochoric Heat Capacity |

Speed of Sound from Pressure and Enthalpy | H2oPHW | Pressure, Enthalpy | Speed of Sound |

Viscosity from Pressure and Enthalpy | H2oPHM | Pressure, Enthalpy | Viscosity |

Thermal Conductivity from Pressure and Enthalpy | H2oPHK | Pressure, Enthalpy | Thermal Conductivity |

Quality from Pressure and Enthalpy | H2oPHQ | Pressure, Enthalpy | Quality |

Temperature from Pressure and Entropy | H2oPST | Pressure, Entropy | Temperature |

Enthalpy from Pressure and Entropy | H2oPSH | Pressure, Entropy | Enthalpy |

Specific Internal Energy from Pressure and Entropy | H2oPSU | Pressure, Entropy | Specific Internal Energy |

Specific Volume from Pressure and Entropy | H2oPSV | Pressure, Entropy | Specific Volume |

Isobaric Heat Capacity from Pressure and Entropy | H2oPSCp | Pressure, Entropy | Isobaric Heat Capacity |

Isochoric Heat Capacity from Pressure and Entropy | H2oPSCv | Pressure, Entropy | Isochoric Heat Capacity |

Speed of Sound from Pressure and Entropy | H2oPSW | Pressure, Entropy | Speed of Sound |

Viscosity from Pressure and Entropy | H2oPSM | Pressure, Entropy | Viscosity |

Thermal Conductivity from Pressure and Entropy | H2oPSK | Pressure, Entropy | Thermal Conductivity |

Quality from Pressure and Entropy | H2oPSQ | Pressure, Entropy | Quality |

Saturation Temperature from Pressure | H2oPT | Pressure | Saturation Temperature |

Saturation Pressure from Temperature | H2oTP | Temperature | Saturation Pressure |

Surface Tension from Temperature | H2oTY | Temperature | Surface Tension |

Enthalpy from Pressure and Quality | H2oPQH | Pressure, Quality | Enthalpy |

Entropy from Pressure and Quality | H2oPQS | Pressure, Quality | Entropy |

Specific Internal Energy from Pressure and Quality | H2oPQU | Pressure, Quality | Specific Internal Energy |

Specific Volume from Pressure and Quality | H2oPQV | Pressure, Quality | Specific Volume |

Isobaric Heat Capacity from Pressure and Quality | H2oPQCp | Pressure, Quality | Isobaric Heat Capacity |

Isochoric Heat Capacity from Pressure and Quality | H2oPQCv | Pressure, Quality | Isochoric Heat Capacity |

Enthalpy from Temperature and Quality | H2oTQH | Temperature, Quality | Enthalpy |

Entropy from Temperature and Quality | H2oTQS | Temperature, Quality | Entropy |

Specific Internal Energy from Temperature and Quality | H2oTQU | Temperature, Quality | Specific Internal Energy |

Specific Volume from Temperature and Quality | H2oTQV | Temperature, Quality | Specific Volume |

Isobaric Heat Capacity from Temperature and Quality | H2oTQCp | Temperature, Quality | Isobaric Heat Capacity |

Isochoric Heat Capacity from Temperature and Quality | H2oTQCv | Temperature, Quality | Isochoric Heat Capacity |

Pressure from Enthalpy and Entropy | H2oHSP | Enthalpy, Entropy | Pressure |

Temperature from Enthalpy and Entropy | H2oHST | Enthalpy, Entropy | Temperature |

Quality from Enthalpy and Entropy | H2oHSQ | Enthalpy, Entropy | Quality |

Specific Internal Energy from Enthalpy and Entropy | H2oHSU | Enthalpy, Entropy | Specific Internal Energy |

Specific Volume from Enthalpy and Entropy | H2oHSV | Enthalpy, Entropy | Specific Volume |

Isobaric Heat Capacity from Enthalpy and Entropy | H2oHSCp | Enthalpy, Entropy | Isobaric Heat Capacity |

Isochoric Heat Capacity from Enthalpy and Entropy | H2oHSCv | Enthalpy, Entropy | Isochoric Heat Capacity |

Speed of Sound from Enthalpy and Entropy | H2oHSW | Enthalpy, Entropy | Speed of Sound |

Viscosity from Enthalpy and Entropy | H2oHSM | Enthalpy, Entropy | Viscosity |

Thermal Conductivity from Enthalpy and Entropy | H2oHSK | Enthalpy, Entropy | Thermal Conductivity |

(∂P/∂T)v = Partial Derivative of Pressure WRT Temperature at constant Volume from Pressure and Temperature | dH2oPT_dPdT_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_U | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_H | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_S | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_V | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_U | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_H | Pressure, 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_P | Pressure, 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_T | Pressure, 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_V | Pressure, 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_U | Pressure, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_H | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_S | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_P | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_U | Enthalpy, 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_H | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_H | Enthalpy, 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_P | Enthalpy, 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_T | Enthalpy, 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_V | Enthalpy, 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_U | Enthalpy, Entropy | (∂S/∂H)u = Partial Derivative of Entropy WRT Enthalpy at constant Internal Energy |