Note on the One-Dimensional Model Describing Liquid Water : Determination of the Interaction Constants

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Statistical Mechanics of One-Dimensional Systems. II : Multicomponent Gas with Intermolecular Potentials of Infinite Range and of Infinitesimal Depth
Statistical Mechanics of One-Dimensional Systems.I : Phase Transition of a van der Waals Gas
Statistical Mechanics of One-Dimensional Systems. III : Multicomponent Gas with Kac's Potential
Statistical-Mechanical Theory of Osmotic Pressure of One-Dimensional Multicomponent Systems.I.Expansion in Terms of the Molar Fractions of the Solutes
Formal Diagrams Derived from the Prototypes of Eight or Less Points
Statistical-Mechanical Theory of One-Dimensional Gases with Short-Range and Long-Range Intermolecular Forces.IV.Phase Transitions at Finite Temperatures in the Case of Attractive Short-Range Interaction
Cluster Sums for Lattice Gases with Second Nearest Neighbour Interactions.II.One-Dimensional Lattice
On the Theory of Isothermal-Isobaric Ensemble. II : Imperfect Gases and Condensation
Volume-Dependent Cluster Sums for Lattice Gases. I : Calculation of the Temperley Coefficients
Generalized Theory of Condensing Systems. VII : An Imperfect Gas Obeying the Perfect-Gas Law in the Gaseous State
On the Yang-Lee Distribution of Zeros for a Gas Obeying van der Waals' Equation of State. III : Calculations for Low Temperatures
Volume-Dependent Cluster Sums for Lattice Gases. IV : Behaviour of the Cluster Sums
Statistical-Mechanical Theory of Osmotic Pressure of One-Dimensional Multicomponent Systems. : II. Expansion in Terms of the Relative Molarities of the Solutes
Thermodynamical Behaviour of Liquid Water near the Triple Point
Statistical-Mechanical Theory of Osmotic Pressure of One-Dimensional Multicomponent Systems. III. : Solution Immersed in a Very Large Bath of Pure Solvent
Distribution of Zeros and the Equation of State. II : Phase Transitions and Singularities in the Case of Circular Distribution
Statistical-Mechanical Theory of One-Dimensional Gases with Short-Range and Long-Range Intermolecular Forces.III.Phase Transitions at Finite Temperatures in the Case of Repulsive Short-Range Interaction
Irreducible Cluster Sums and the Virial Coefficients for Lattice Gases
Cluster Sums for Lattice Gases with Second Nearest Neighbour Interactions.III.Three-Dimensional Simple Cubic Lattice
Volume-Dependent Cluster Sums and Phase Transition of the Two-Dimensional Triangular Lattice Gas
Phase Transitions of Lattice Gases : Satisfaction of the G-Condition : Condensed Matter and Statistical Physics
On the Yang-Lee Distribution of Zeros for a Gas Obeying van der Waals' Equation of State. I : Fundamental Concepts and the Limit of Vanishing Attraction
Cluster Sums for Lattice Gases with Second Nearest Neighbour Interactions.I.Two-Dimensional Square Lattice
On the Theory of Isothermal-Isobaric Ensemble. I : Mathematical Treatment of the Partition Function
Distribution of Zeros and the Equation of State. III : Cluster Series, the Ideal Fermi-Dirac Gas and Other Problems
Generalized Theory of Condensing Systems. VI : Examples of Systems Satisfying the G-Condition
Statistical-Mechanical Theory of One-Dimensional Gases with Short-Range and Long-Range Intermolecular Forces.I.Equation of State and the Thermodynamic Functions
Note on the One-Dimensional Model Describing Liquid Water : Determination of the Interaction Constants
Generalized Theory of Condensing Systems. II : Description in Terms of Irreducible Cluster Integrals
Volume-Dependent Irreducible Cluster Sums and Phase Transition of Lattice Gases
Generalized Theory of Condensing Systems. III : Uniform Convergence of Thermodynamic Functions
Distribution of Zeros and the Equation of State. I : Fundamental Relations and a Theorem on a Cauchy-Type Integral
Statistical-Mechanical Theory of One-Dimensional Gases with Short-Range and Long-Range Intermolecular Forces.V.Intersection and Inversion of Isotherms of the Water Type
Volume-Dependent Cluster Sums for Lattice Gases. III : Patterns of Seven or Eight Particles and Expressions for the Cluster Sums
Generalized Theory of Condensing Systems. V : Some Remarks on the Validity of the G-Condition
Statistical Mechanics of One-Dimensional Multicomponent Gases of Molecules with Hard Cores and Weak Long-Range Interactions

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