Search the database, About 986 matches HNO3 's search result
    R438A R438A R438A Based on Venus model
R438A - -R438A - -R438A - -R438A - -R438A - -R438A - -R438A--R438A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R500 R500 R500 Based on Venus model
R500 - -R500 - -R500 - -R500 - -R500 - -R500 - -R500--R500
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R501 R501 R501 Based on Venus model
R501 - -R501 - -R501 - -R501 - -R501 - -R501 - -R501--R501
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R502 R502 R502 Based on Venus model
R502 - -R502 - -R502 - -R502 - -R502 - -R502 - -R502--R502
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R503 R503 R503 Based on Venus model
R503 - -R503 - -R503 - -R503 - -R503 - -R503 - -R503--R503
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R504 R504 R504 Based on Venus model
R504 - -R504 - -R504 - -R504 - -R504 - -R504 - -R504--R504
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R507A R507A R507A Based on Venus model
R507A - -R507A - -R507A - -R507A - -R507A - -R507A - -R507A--R507A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R508A R508A R508A Based on Venus model
R508A - -R508A - -R508A - -R508A - -R508A - -R508A - -R508A--R508A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R508B R508B R508B Based on Venus model
R508B - -R508B - -R508B - -R508B - -R508B - -R508B - -R508B--R508B
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R509A R509A R509A Based on Venus model
R509A - -R509A - -R509A - -R509A - -R509A - -R509A - -R509A--R509A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    R510A R510A R510A Based on Venus model
R510A - -R510A - -R510A - -R510A - -R510A - -R510A - -R510A--R510A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
    air air air Based on Venus model
air - -air - -air - -air - -air - -air - -air - -air--AIR
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative DielectricConstant [Click to Calculate]
    n hexane n hexane n hexane C6H14 Based on Mercury model
n-hexane - Hexane; n-Hexane n-hexane - Hexane; n-Hexane n-hexane - Hexane; n-Hexane n-hexane - Hexane; n-Hexane n-hexane - Hexane; n-Hexane n-hexane - Hexane; n-Hexane-Hexane; n-Hexane-C6
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºHydrocarbon
    n heptane n heptane n heptane C7H16 Based on Mercury model
n-heptane - Heptane; Heptane n-heptane - Heptane; Heptane n-heptane - Heptane; Heptane n-heptane - Heptane; Heptane n-heptane - Heptane; Heptane n-heptane - Heptane; Heptane-Heptane; Heptane-C7
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºHydrocarbon
    2 methylheptane 2 methylheptane 2 methylheptane C8H18 Based on Mercury model
2-methylheptane - 2-methylheptane 2-methylheptane - 2-methylheptane 2-methylheptane - 2-methylheptane 2-methylheptane - 2-methylheptane 2-methylheptane - 2-methylheptane 2-methylheptane - 2-methylheptane-2-methylheptane-2MC7
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºHydrocarbon
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