Polywater was a hypothesized polymerized form of water that was the subject of much scientific controversy during the late 1960s, first described by Soviet scientist Nikolai Fedyakin. By 1969 the popular press had taken notice of Western attempts to recreate the substance and sparked fears of a "polywater gap" between the United States and Soviet Union. Increased press attention also brought with it increased scientific attention, and as early as 1970 doubts about its authenticity were being circulated.[1][2][3] By 1973 it was found to be illusory, being just water with any number of common compounds contaminating it.[4] Today, polywater is best known as an example of pathological science.[5]
Background
editIn 1961, the Soviet physicist Nikolai Fedyakin, working at the Technological Institute of Kostroma, Russia, performed measurements on the properties of water which had been condensed in, or repeatedly forced through, narrow quartz capillary tubes. Some of these experiments resulted in what was seemingly a new form of water with a higher boiling point, lower freezing point, and much higher viscosity than ordinary water – about that of a syrup.[6][7]
Boris Derjaguin, director of the laboratory for surface physics at the Institute for Physical Chemistry in Moscow, heard about Fedyakin's experiments. He improved on the method to produce the new water, and though he still produced very small quantities of this mysterious material, he did so substantially faster than Fedyakin did. Investigations of the material properties showed a substantially lower freezing point of −40 °C or less, a boiling point of 150 °C or greater, a density of approx. 1.1 to 1.2 g/cm3, and increased expansion with increasing temperature. The results were published in Soviet science journals,[8] and short summaries were published in Chemical Abstracts in English, but Western scientists took no notice of the work.
In 1966, Derjaguin travelled to England for the "Discussions of the Faraday Society" in Nottingham. There, he presented the work again, and this time English scientists took note of what he referred to as anomalous water. English scientists then started researching the effect as well, and by 1968 it was also under study in the United States.
By 1969, the concept had spread to newspapers and magazines.[1][2] There was fear [failed verification] by the United States military that there was a so-called "polywater gap" with the Soviet Union, a popular media term indicating a possible capability "gap", or discrepancy, between the US and the USSR, popularized by media hype of the "bomber gap" and the "missile gap", during periods when the USSR appeared to be outstripping the US in numbers of these various weapons.[9]
A scientific furore followed. Some experiments carried out were able to reproduce Derjaguin's findings, while others failed. Several theories were advanced to explain the phenomenon. Some proposed it was the cause for increasing resistance on trans-Atlantic phone cables, while others predicted that if polywater were to contact ordinary water, it would convert that water into polywater, echoing the doomsday scenario in Kurt Vonnegut's novel Cat's Cradle. By the 1970s, polywater was well known in the general population.[10]
During this time, several people questioned the authenticity of what had come to be known in the West as polywater. The main concern was contamination of the water, but the papers went to great lengths to note the care taken to avoid this. Denis Rousseau and Sergio Porto of Bell Labs carried out infrared spectrum analysis, which showed polywater to be mostly chlorine and sodium.[11]
Denis Rousseau undertook an experiment with his own sweat after playing a handball game at the lab and found it had identical properties. He then published a paper suggesting polywater was nothing more than water with small amounts of biological impurities.[12]
Another wave of research followed, this time more tightly controlled. Invariably, polywater could no longer be made. Chemical analysis found the samples of polywater to be contaminated with other substances (explaining the changes in melting and boiling points due to colligative properties), and examination of polywater by electron microscopy showed it also contained small particles of various solids – from silica to phospholipids, explaining its greater viscosity.
When the experiments which had initially produced polywater were repeated with thoroughly cleaned glassware, the anomalous properties of the resulting water vanished, and even the scientists who had originally advanced the case for polywater agreed it did not exist.
In August 1973, Derjaguin and N. V. Churaev published a letter in the journal Nature in which they wrote; "these [anomalous] properties should be attributed to impurities rather than to the existence of polymeric water molecules".[13]
Denis Rousseau used polywater as a classic example of pathological science and has since written on other examples as well.[14]
It has been suggested that polywater should have been dismissed on theoretical grounds. The laws of thermodynamics predicted that, since polywater had a higher boiling point than ordinary water, it meant it was more stable, and thus all of Earth's water should have turned spontaneously into polywater, instead of just part of it.[15] Richard Feynman remarked that if such a material existed, then an animal would exist that would ingest water and excrete polywater, using the energy released from the process to survive.[15]
In fiction
editThe episodes "The Naked Time" (Star Trek, 1966) and its sequel, "The Naked Now" (Star Trek: The Next Generation, 1987) involve forms of polywater intoxication. In the original episode, a scientific research outpost falls victim to polywater, which causes the crew to become so incapacitated that they all died after shutting off environmental controls in the compound. In the sequel, a Starfleet vessel is discovered adrift, its crew frozen in various states due to polywater intoxication. The Star Trek: Lower Decks episode "I, Excretus" briefly features a simulated version of the USS Cerritos plagued by polywater intoxication, leading to a shipwide orgy, as part of a holodeck drill. Beckett Mariner attempts the simulation, but is unable to stomach the scenario and chooses to space herself.
The story "Polywater Doodle" by Howard L. Myers (writing under the pseudonym "Dr. Dolittle") appeared in the February 1971 issue of Analog Science Fiction and Fact. It features an animal composed entirely of polywater, with the metabolism described by Richard Feynman. (The title of the story is a pun on "Polly Wolly Doodle".)
Polywater is the central idea of the 1972 espionage/thriller novel A Report from Group 17 by Robert C. O'Brien. The story revolves around the use of a type of polywater to make people controllable and incapable of independent thought or action.
Business
editThere is a company named American Polywater Corporation, which is unrelated to the hypothesized form of water. The company is based in Stillwater, Minnesota.[16][17][18]
See also
editReferences
edit- ^ a b "Unnatural Water". Time magazine. December 19, 1969. Archived from the original on 27 December 2009. Retrieved 24 December 2010.
Western scientists were frankly skeptical. Russian Chemists N. Fedyakin and Boris Deryagin claimed to have produced a mysterious new substance, a form of water so stable, it boiled only at about 1,000°F., or five times the boiling temperature of natural water. It did not evaporate. It did not freeze – though at −40°F., with little or no expansion, it hardened into a glassy substance, quite unlike ice.
- ^ a b "Polywater". The New York Times. September 22, 1969. Retrieved 24 December 2010.
Water is so essential, so abundant, so simple in composition and so intensively studied over the centuries that it seems a most unlikely substance to provide a major scientific surprise. Nevertheless, this is precisely what has recently occurred. American chemists have confirmed that there is a form of water with properties quite different from that of the fluid everyone takes for granted. Polywater as this substance has been named is an organized aggregate or polymer of ordinary water molecules but it has very different properties from its ...
- ^ "Doubts about Polywater". Time magazine. October 19, 1970. Archived from the original on 1 December 2010. Retrieved 24 December 2010.
Challenged by critics to let impartial scientists analyze his polywater, Deryagin had turned over 25 tiny samples of the substance to investigators of the Soviet Academy of Sciences' Institute of Chemical Physics. The results, which were published in the journal, showed that Deryagin's polywater was badly contaminated by organic compounds, including lipids and phospholipids, which are ingredients of human perspiration.
- ^ Butler, S. T. (September 17, 1973). "Polywater Debate Fizzles Out". The Sydney Morning Herald. Retrieved 1 May 2021 – via Google News.
- ^ Greenberg, Arthur (1 January 2009). "Chapter 8". Chemistry: Decade by Decade. New York, New York: Infobase Publishing (Facts on File imprint). p. 287. ISBN 978-1-4381-0978-7. Retrieved 1 May 2021 – via Google Books (Preview).
- ^ Федякин (Fedyakin), Н.Н. (N.N.) (1962). "Изменение структуры воды при конденсации в капиллярах" [Changes in the structure of water during condensation in capillaries.]. Коллоидный Журнал (Kolloidnyi Zhurnal, Colloid Journal) (in Russian). 24: 497–501.
- ^ Giaimo, Cara (21 September 2015). "Polywater, the Soviet Scientific Secret That Made the World Gulp". Atlas Obscura. Retrieved 1 May 2021.
- ^ Deryagin, B. V.; Fedyakin, N. N. (1962). "Special properties and viscosity of liquids condensed in capillaries". Proceedings of the Academy of Sciences of the USSR Physics Chemistry. 147 (2): 808–811.
- ^ "U.S. Begins Efforts To Exceed the USSR In Polywater Science. Pentagon Picks Firm to Study Water-Like Fluid That Boils At 400, Was Isolated in 1961". The Wall Street Journal. June 30, 1969. Archived from the original on January 27, 2012. Retrieved 2010-12-24.
Good news The U.S. has apparently closed the polywater gap and the Pentagon is bankrolling efforts to push this country's polywater technology ahead of the ...
- ^ Christian, P. A.; Berka, L. H. (June 1973). "How You Can Grow Your Own Polywater". Popular Science. pp. 105–107.
- ^ Rousseau, Denis L.; Porto, Sergio P. S. (March 27, 1970). "Polywater: Polymer or Artifact?". Science. 167 (3926): 1715–1719. Bibcode:1970Sci...167.1715R. doi:10.1126/science.167.3926.1715. PMID 17729617. S2CID 37067352. Retrieved August 13, 2011.
- ^ Rousseau, Denis L. (January 15, 1971). ""Polywater" and Sweat: Similarities between the Infrared Spectra". Science. 171 (3967): 170–172. Bibcode:1971Sci...171..170R. doi:10.1126/science.171.3967.170. PMID 5538826. S2CID 46032654. Retrieved August 13, 2011.
- ^ Franks, Felix (1981). Polywater. The MIT Press. p. 140. ISBN 0-262-06073-6.
- ^ Rousseau, Denis L. (January–February 1992). "Case Studies in Pathological Science". American Scientist. 80 (1): 54–63. Bibcode:1992AmSci..80...54R.
- ^ a b Henry H. Bauer. "'Pathological Science' is not Scientific Misconduct (nor is it pathological)". Hyle: International Journal for Philosophy of Chemistry. 8 (1): 5–20. The above paper cites this review from Eisenberg: David Eisenberg (September 1981). "A Scientific Gold Rush. (Book Reviews: Polywater)". Science. 213 (4512): 1104–1105. Bibcode:1981Sci...213.1104F. doi:10.1126/science.213.4512.1104. PMID 17741096.
- ^ "Polywater". Polywater.
- ^ "Interview with Erik Freyser, President and COO at Polywater". Transformers Magazine.
- ^ "American Polywater Corporation". Power Technology.
Further reading
edit- Derjaguin, B. (1983). "Polywater reviewed". Nature. 301 (5895): 9–10. Bibcode:1983Natur.301....9D. doi:10.1038/301009d0. S2CID 42529135.
- Derjaguin, B. V.; Zorin, Z. M.; Rabinovich, Ya. I.; et al. (1974). "Results of analytical investigation of the composition of "anomalous" water". Journal of Colloid and Interface Science. 46 (3): 437–441. Bibcode:1974JCIS...46..437D. doi:10.1016/0021-9797(74)90053-8.
- Franks, F., Polywater MIT Press, 1981 ISBN 0-262-06073-6
- 4. M. De Paz, A. Pozzo, and M. E. Vallauri, Mass spectrometric evidence against "polywater" Chem. Phys. Letters, 7, October 1970