Refractometry of Water–Ethanol Solutions near Their Contraction Point

Bulavin, L. A.; Gotsulskiy, V.Ya.; Malomuzh, N. P.; Stiranets, M.V.

doi:10.15407/ujpe60.11.1108

Cited by 6 publications

(6 citation statements)

References 12 publications

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“…The extrapolation of the position of the minimum of 𝛽 𝑆 (𝑥) to pure water (𝑥 = 0) predicts the presence of some "critical" temperature 𝑡 ≈ 48 ∘ С in water. This temperature is in good agreement with the results of works [8,9], where, on the base of comparative analysis of the temperature dependences of the shear viscosities of water and argon, the au-ISSN 2071-0194. Ukr.…”

Section: Resultssupporting

confidence: 90%

Different Structural States of 4-Methylpyridine--Water Solutions: Experimental Study of the Adiabatic Compressibility at the Hypersonic Frequency

Sabirov

Semenov

2015

Ukr. J. Phys.

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The behavior of the adiabatic compressibility 𝛽𝑆 with variation in the temperature 𝑡 and the concentration 𝑥 in the aqueous solution of a nonelectrolyte is experimentally studied from the fine structure of the spectra of light scattering. The sign inversion of the derivative of the adiabatic compressibility with respect to the concentration 𝑑𝛽𝑆(𝑥)/𝑑𝑥 and temperature 𝑑𝛽𝑆(𝑡)/𝑑𝑡 is observed. In the temperature-concentration phase diagram, the inversion points determine the lines of transition from the solution structure characterized by a nondisturbed continuous network of hydrogen bonds to the disturbed one, and, further, to the structure with fragmentary network. K e y w o r d s: Rayleigh scattering, water solution, 4-methylpyridine, adiabatic compressibility.

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Section: Resultssupporting

confidence: 90%

Different Structural States of 4-Methylpyridine--Water Solutions: Experimental Study of the Adiabatic Compressibility at the Hypersonic Frequency

Sabirov

Semenov

2015

Ukr. J. Phys.

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“…Note another structural feature of the solutions under study and its relationship to the propagation of high-frequency sound. It is known that water molecules can form a 3D network of hydrogen bonds with a coordination close to tetrahedral (see, for example, [7][8][9][10]). The incorporation of nonelectrolyte molecules into the network structure can lead to its stabilization (hardening) in a certain concentration range.…”

Section: Discussionmentioning

confidence: 99%

Negative Dispersion of High-Frequency Sound Velocity in Aqueous Solutions of Non-Electrolyte in a Vicinity of the Singular Point Concentration

2015

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A new method of determination of the hypersound velocity dispersion is proposed. It is based on the direct measurement of the frequency shift of Brillouin components in the light scattering spectra registered at different angles. The concentration dependence of the hypersound velocity dispersion is studied in 4-methylpyridine-water solutions. Negative dispersion is experimentally observed in the region of the singular point concentration.

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“…The solutions were prepared from doubly distilled water and various polyols of the chemically pure grade. The weighing was performed on an analytical balance with an error of ±2 × 10 −4 g. Solutions of the following polyols and with the following concentrations were studied: erythritol (1,5,15,25,30, and 35 wt.%), xylitol (5,10,20,30,40,50, and 60 wt.%), sorbitol (5,10,20,30,40,60, and 70 wt.%), and mannitol (1,3,10,15, and 20 wt.%).…”

Section: Research Methods and Objectsmentioning

confidence: 99%

“…The properties of liquid systems in the vicinity of their singular points are researched using various methods [15][16][17][18][19][20], in particular, acoustic spectroscopy [21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Адіабатична Стисливість Водних Розчинів Поліолів

Saienko

Svechnikova

2021

Ukr. J. Phys.

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За експериментальними даними про густину i швидкiсть поширення ультразвукових хвиль проведено розрахунки адiабатичної стисливостi у водних розчинах еритриту, ксилiту, сорбiту i манiту. Встановлено, що температурнi залежностi адiабатичної стисливостi дослiджених систем проходять через мiнiмуми. Зi збiльшенням концентрацiї полiолу у водi мiнiмум адiабатичної стисливостi змiщується у бiк нижчих температур. Розраховано значення температур мiнiмумiв молярної адiабатичної стисливостi. Показано, що концентрацiйна залежнiсть температур мiнiмуму молярної адiабатичної стисливостi носить лiнiйний характер. Встановлено наявнiсть особливої точки для дослiджуваних водних розчинiв полiолiв.

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Refractometry of Water–Ethanol Solutions near Their Contraction Point

Cited by 6 publications

References 12 publications

Different Structural States of 4-Methylpyridine--Water Solutions: Experimental Study of the Adiabatic Compressibility at the Hypersonic Frequency

Different Structural States of 4-Methylpyridine--Water Solutions: Experimental Study of the Adiabatic Compressibility at the Hypersonic Frequency

Negative Dispersion of High-Frequency Sound Velocity in Aqueous Solutions of Non-Electrolyte in a Vicinity of the Singular Point Concentration

Адіабатична Стисливість Водних Розчинів Поліолів

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