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Liquid-Phase Transition in Water
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SpringerLink (Online service)
Liquid-Phase Transition in Water
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Liquid-Phase Transition in Water/ by Osamu Mishima.
Author:
Mishima, Osamu.
Description:
VIII, 107 p. 66 illus., 63 illus. in color.online resource. :
Contained By:
Springer Nature eBook
Subject:
Water, general. -
Online resource:
https://doi.org/10.1007/978-4-431-56915-2
ISBN:
9784431569152
Liquid-Phase Transition in Water
Mishima, Osamu.
Liquid-Phase Transition in Water
[electronic resource] /by Osamu Mishima. - 1st ed. 2021. - VIII, 107 p. 66 illus., 63 illus. in color.online resource. - NIMS Monographs,2197-9502. - NIMS Monographs,.
Liquid-Liquid Critical Point Hypothesis of Water -- Volume of Liquid Water and Amorphous Ices -- Metastable Melting Lines of Crystalline Ices -- Gibbs Energy of Liquid Water and the Liquid-Liquid Critical Point Hypothesis -- Outlook -- Appendix: Melting Points of Emulsified H2O Ices.
A profound secret of nature hidden in ice water in a glass cup is revealed in this book. The author teaches a simple method for understanding the complex properties of water through the concept of polyamorphism. Polyamorphism is the existence of two kinds of liquid water, leading to a discontinuous transition between them. Currently, this two-water scenario is controversial in the scientific community because definitive experimental proof is difficult. However, a growing number of researchers believe there is adequate circumstantial evidence for the scenario. This introductory book focuses experimental thermodynamic data of liquid water, supercooled water, and amorphous solid water at various pressures and temperatures, and demonstrates how the two-water scenario initially evolved experimentally. The book explains the importance of polyamorphism in comprehending liquid water.
ISBN: 9784431569152
Standard No.: 10.1007/978-4-431-56915-2doiSubjects--Topical Terms:
1022075
Water, general.
LC Class. No.: QD450-882
Dewey Class. No.: 541
Liquid-Phase Transition in Water
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Liquid-Liquid Critical Point Hypothesis of Water -- Volume of Liquid Water and Amorphous Ices -- Metastable Melting Lines of Crystalline Ices -- Gibbs Energy of Liquid Water and the Liquid-Liquid Critical Point Hypothesis -- Outlook -- Appendix: Melting Points of Emulsified H2O Ices.
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A profound secret of nature hidden in ice water in a glass cup is revealed in this book. The author teaches a simple method for understanding the complex properties of water through the concept of polyamorphism. Polyamorphism is the existence of two kinds of liquid water, leading to a discontinuous transition between them. Currently, this two-water scenario is controversial in the scientific community because definitive experimental proof is difficult. However, a growing number of researchers believe there is adequate circumstantial evidence for the scenario. This introductory book focuses experimental thermodynamic data of liquid water, supercooled water, and amorphous solid water at various pressures and temperatures, and demonstrates how the two-water scenario initially evolved experimentally. The book explains the importance of polyamorphism in comprehending liquid water.
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