Generalized Theory of Condensing Systems. V : Some Remarks on the Validity of the G-Condition

スポンサーリンク

概要

• 論文の詳細を見る

• Discussions are given of the validity of the G-condition, which was used as the starting point of the theory of condensing systems in the author's previous papers, and which was considered to represent the essential features of the volume-dependent cluster integrals of the physical real systems. In particular, for classical systems with two-body forces of finite range, the concept of "maximum length" of a cluster is introduced, and, with the use of this, some theorems are established which are useful for testing the validity of (G・3) [which is the third item of the G-condition and assumes the independence, upon u (volume per molecule), of the contribution per molecule to the (infinitely large) cluster integral in some range of values of u]. The validity of the assumptions in the theorems is discussed from the physical point of view. In this connection, some arguments are made about the analytical properties of the condensation point, strongly supporting the identity of the condensation point of the classical real system and that of the (O)-system (i. e. the system consisting of volume-independent cluster integrals). Some remarks are given on the G-condition in the case of the general system (quantal or classical). Finally, analytical examples of functions satisfying the G-condition are shown.

• 理論物理学刊行会の論文
• 1967-02-25

著者

• Ikeda Kazuyosi

  Department Of Applied Physics Faculty Of Engineering Osaka University

• IKEDA Kazuyosi

  Department of Applied Physics, Faculty of Engineering Osaka University

関連論文

• 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

もっと見る 閉じる

スポンサーリンク