On the Continuity of the Gaseous and Liquid StatesCourier Corporation, 1 sty 2004 - 297 This much-cited thesis by J. D. van der Waals, the recipient of the 1910 Nobel Prize in physics, is accompanied by an introductory essay by J. S. Rowlinson and another work by van der Waals on the theory of liquid mixtures. 1988 edition. |
Spis treści
19141945 | 35 |
3 | 70 |
11 | 77 |
Conclusion | 89 |
18 | 93 |
Title page | 122 |
Derivation of the fundamental equation of the isotherm | 129 |
Analytical expression for the molecular pressure | 139 |
Applications of the isotherm | 175 |
The value of K | 209 |
Application to thermodynamics | 220 |
Pressure of the saturated vapour | 232 |
Conclusion | 239 |
Some remarks on the form of the spinodal curve | 276 |
Name Index | 283 |
| 293 | |
On the potential energy of a liquid | 155 |
Influence of the extension of the molecule | 168 |
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Akad Amsterdam approximation atoms attractive forces binodal curve Boltzmann c₁ calculation carbon dioxide Chem Clausius co-existing phases components consider constant critical point critical temperature denotes density distance equal equation equilibrium expansion experimental experiments expression external Faraday fluid free energy function gases given hard spheres heat integral intermolecular forces Ising model isotherm J.D. Bernal J.S. Rowlinson Joule Kamerlingh Onnes kinetic energy later lattice layer Leiden Lennard-Jones liquid M.E. Fisher mean-field molecular molecules motion number of molecules obtained P₁ parameters particles Philos Phys Physics potential energy Proc quantity R.H. Fowler R₁ Rayleigh Regnault statistical mechanics substance surface tension tangent plane theory thermodynamic thesis Thomson Threlfall translation tricritical point Unabridged republication V₁ van der Waals vapour pressure virial coefficient volume Waals Waals's Weten Widom Zeit zero дх