Abstract
Self-diffusion in liquid mercury was determined by a shear cell method. At atmospheric pressure, D=8.5 ×10-5 exp(-1005/RT) cm2 sec-1 from 0° to 98°. At 30° for pressures ranging up to 8366 kg cm-2, log10D =-0.572Tm/T-4.348, or log10D= -4.7889-9.637×10-5 (kg cm-2). The activation volume is 0.587 cm3. The pressure dependences of viscosity and diffusivity are identical within experimental error, but the temperature variations are not equal. The results are discussed in terms of an imperfect crystal lattice model of a liquid.
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CITATION STYLE
Nachtrieb, N. H., & Petit, J. (1956). Self-diffusion in liquid mercury. The Journal of Chemical Physics, 24(4), 746–750. https://doi.org/10.1063/1.1742602
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