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The properties listed here (except the vapor density) can be used at any pressures with negligible error except at temperatures near the critical-point value. Note 2: The unit kJ/kg· C for specific heat is equivalent to kJ/kg·K, and the unit W/m· C for thermal conductivity is equivalent to W/m·K.
Table A–2 Ideal-gas specific heats of various common gases Table A–3 Properties of common liquids ... —Temperature table Table A–5 Saturated water—Pressure table Table A–6 Superheated water Table A–7 Compressed liquid water Table A–8 Saturated ice–water ... Nitrous oxide N 2O 44.013 0.1889 309.7 7.27 0.0961 Oxygen O 2 31.999 0 ...
Figure 1: Thermal conductivity and specific heat of aluminium oxide. Temperature (K) Figure 2: Elastic modulus and thermal expansion coefficient as a function of temperature for aluminium oxide. Figure 3: The effect of porosity on the thermal conductivity of aluminum oxide as a function of temperature.
The table of specific heat capacities gives the volumetric heat capacity as well as the specific heat capacity of some substances and engineering materials, and (when applicable) the molar heat capacity.
Table A-2 Molar mass, gas constant, specific heats and critical-point properties Critical Properties Molar mass, M k Gas constant, RCp CvTemperature, Pressure, Volume, Substance Formula kg/kmol kJ/kg K kJ/kg K kJ/kg K K kPa m3/kmol Air 28.967 1.400 0.287032 1.0047 0.7177 132.5 3,786 0.08446 Ammonia NH 3 17.031 1.304 0.488196 2.0948 1.6066 405.4 11,333 0.07569 ...
Latent heat of fusion when changing between solid or liquid state for common materials like aluminum, ammonia, glycerin, water and more.
The Latent Heat of Fusion is the heat supplied to a solid body at the melting point when it changes state from solid to liquid. Latent heat of fusion for some metals are indicated below:
