Subscribe to RSS
DOI: 10.1016/j.homp.2007.03.007
Long term structural effects in water: autothixotropy of water and its hysteresis
Subject Editor:
Publication History
Received14 March 2007
accepted27 March 2007
Publication Date:
13 December 2017 (online)
We discovered a previously unknown phenomenon in liquid water, which develops over time when water is left to stand undisturbed, and which made precise gravimetric measurement impossible. We term this property autothixotropy (weak gel-like behaviour developing spontaneously over time) and propose a possible explanation.
The results of quantitative measurements, performed by two different methods, are presented. We also report the newly discovered phenomenon of autothixotropy-hysteresis and describe the dependence of autothixotropy on the degree of molecular translative freedom. A very important conclusion is that the presence of very low concentration of salt ions, these phenomena do not occur in deionized water. Salt ions may be the determinative condition for the occurrence of the phenomena.
-
References
- 1 Vybíral B. Experimental verification of gravitational interaction of bodies immersed in fluids. Astrophys Space Sci 1987; 138: 87-98.
- 2 Vybíral B. K experimentálnímu ověření gravitační interakce těles ponořených do tekutin. In: Sborník Pedagogické fakulty, 54 (Fyzika). Praha: SPN, 1989, pp 307–318 (in Czech).
- 3 Horák Z. Gravitational interaction of bodies immersed in fluids. Astrophys Space Sci 1984; 100: 1-11.
- 4 Vybíral B, Voráček P. ‘Autothixotropy’ of Water—an Unknown Physical Phenomenon. Available via ⟨http://arxiv.org/abs/physics/0307046⟩; 2003.
- 5 Vybíral B. The comprehensive experimental research on the autothixotropy of water. In: Pollack G, et al (eds). Water and the Cell. Dordrecht: Springer, 2006, Chap 15, pp 299–314.
- 6 Pollack G. Cells, Gels and the Engines of Life. Seattle, WA: Exner and Sons Publisher; 2001.
- 7 Wernet P.h. et al. The structure of the first coordination shell in liquid water. Science 2004; 304: 995-999.
- 8 Cowan M.L. et al. Ultrafast memory loss and energy redistribution in the hydrogen bond network of liquid H2O. Nature 2005; 434: 199-200.
- 9 Vybíral B. Experimental research of the autothixotropy of water. In: Proceedings of the Conference New Trends in Physics—NTF 2004, Brno: University of Technology, Czech Republic, pp 131–135.