Thermal Dilatation of Water between 0 °C and 44 °C

Abstract

A measurement of the thermal dilatation of pure water has been made by detecting the change of buoyancy acting on a cylindrical hollow artifact made of fused quartz immersed in water between the temperatures of 0 °C and 44 °C. The formula for the thermal dilatation of water, free from air, is obtained in terms of the relative density ρ/ρ₀ at the pressure of 101 325 Pa with an uncertainty of less than 1 ppm is as follows: ρ/ρ₀ = 0,999 867 75 + 6,786 687 54 × 10^-5(t/°C) - 9,090 991 73 × 10^-6(t/°C)² + 1,025 981 51 × 10^-7(t/°C)³ - 1,350 290 42 × 10^-9(t/°C)⁴ + 1,326 743 92 × 10^-11(t/°C)⁵ - 6,461 418 × 10^-14(t/°C)⁶ where the temperature of the maximum density ρ₀ is 3,983 4 °C in terms of the ITS-90. The uncertainty of the measurement and the derived formula is evaluated to be 0,2 to 0,5 ppm in standard deviation for the same temperature range.