The fascinating world of pure and mixed nonelectrolytes

Publications: Contribution to bookContribution to proceedings

Abstract

In the first part of this work, the focus is on the molar heat capacity CV at constant volume of fairly simple liquids. This quantity contains valuable information on the type of motion executed by the constituent molecules. Using the residual property formalism, the (hindered) rotational behavior of quasi-rigid molecules in the dense liquid phase will be discussed. To this end, the change of CV determined for states along the saturation curve has to be resolved into the separated changes with temperature and volume, respectively. In the second part, the focus is on binary liquid mixtures containing one strongly polar component. Polar interactions constitute an important example of orientational forces between molecules, and substantial deviations of the properties of polar fluids from those of comparable nonpolar fluids are to be expected and indeed observed. At sufficiently low temperatures, these directional forces lead to significantly increased local structure. Extension of these ideas to liquid mixtures allows a semi-quantitative discussion of W-shaped excess molar heat capacities CpE at constant pressure and M-shaped excess molar enthalpies HE. Œ 2005 IUPAC.
Original languageEnglish
Title of host publicationPapers based on presentations at the 18th IUPAC International Conference on Chemical Thermodynamics (ICCT-2004)
Subtitle of host publicationBeijing, China, 17-21 August 2004
EditorsJohn H. Dymond
Place of PublicationBerlin/Boston
PublisherDe Gruyter
Pages1317-1330
Number of pages14
DOIs
Publication statusPublished - 2005

Publication series

SeriesPure and Applied Chemistry
Number8
Volume77
ISSN0033-4545

Austrian Fields of Science 2012

  • 104017 Physical chemistry

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