Mercury - Thermodynamic Properties Properties of saturated liquid Mercury - Hg - density, specific heat capacity, kinematic viscosity, thermal conductivity and Prandtl number. Properties of saturated liquid Mercury - Hg - at atmospheric pressure - density, specific heat capacity, kinematic viscosity, thermal conductivity and Prandtls number: Mercury - Thermodynamic Properties Temperature - T - (oC) Density - ρ - (kg/m3)Specific Heat - cp - (103 J/kg K)Thermal Conductivity - k - (W/m K)Kinematic Viscosity - ν - (10-6 m2/s)Prandtl Number - Pr - 0 13595 0.140 8.20 0.124 0.029 20 13545 0.139 8.69 0.114 0.025 50 13472 0.139 9.40 0.104 0.021 100 13351 0.137 10.51 0.093 0.016 150 13231 0.137 11.49 0.085 0.013 200 13112 0.157 12.34 0.080 0.012 250 12993 0.136 13.07 0.077 0.010 315.5 0.134 14.02 0.067 0.008 1 kg/m3 = 0.0624 lb/ft3 1 J/(kg K) = 2.389×10-4 kcal/(kg oC) = 2.389×10-4 Btu/lbmoF 1 W/(m K) = 0.85984 kcal/(h m oC) = 0.5779 Btu/(ft h oF) = 0.048 Btu/(in h oF) 1 m2/s = 104 St = 106 cSt = 10.764 ft2/s= 38750 ft2/h Mercury is a liquid heavy metal with toxic properties. Mercury - Density vs Temperature Mercury - Melting Curve - Temperature vs. Pressure Your Short List Related Topics Densities Densities of solids, liquids and gases. Definitions and convertion calculators. Material Properties Properties of gases, fluids and solids. Densities, specific heats, viscosities and more. Related Documents Density, Specific Weight, and Specific Gravity – Definitions & Calculator The difference between density, specific weight, and specific gravity. Including formulas, definitions, and reference values for common substances. Sound - Attenuation and the Directivity Coefficient The attenuation in a room depends on the location of the sound source and the receiver - and the room constant.