Ultracentrifugal analysis in theory and experiment a conference sponsored by the National Academy of Sciences with the financial support of the National Science Foundation, held at the Rockefeller Institute from June 18 to June 21, 1962.

Ultracentrifugal Analysis: In Theory and Experiment aims to tackle some outstanding problems in sedimentation analysis. The book presents topics such as the thermodynamics of diffusion and sedimentation; diffusion and sedimentation in multicomponent systems; and the frictional formalism in the flow...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores Corporativos: Conference on the Ultracentrifuge New York, N.Y., National Academy of Sciences (U.S.)
Otros Autores: Williams, John Warren, 1898-
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: New York, Academic Press, 1963.
Temas:
Centrifuges > Congresses.
Centrifugation.
Centrifugation
Centrifugeuses > Congr�es.
SCIENCE > Chemistry > Clinical.
Centrifuges
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Ultracentrifugal Analysis: In Theory and Experiment; Copyright Page; PARTICIPANTS IN THE CONFERENCE; THE AIMS OF THE CONFERENCE; INTRODUCTORY REMARKS; Table of Contents ; PART I: TRANSPORT THEORY; Chapter 1. Thermodynamics of Diffusion and Sedimentation; I. Introduction; II. General Theory; III. Applications; References; Chapter 2. Diffusion and Sedimentation in Multicomponent Systems; I. Introduction; II. Independently Moving Substances; III. Sedimentation Equilibrium; IV. Sedimentation Coefficients and Diffusion Coefficients
  • v. General Relation between Sedimentation and DiffusionVI. Formulas for Two Substances; VII. Formulas for Three Substances; References; Chapter 3. Frictional Formalism in the Flow Equations of Sedimentation; I. Equivalence of the Lamm and Onsager Formulations; II. Flow Equations in Terms of Frictions; III. Component Transformations by Tensor Formalism; References; Comments; Chapter 4. Solutions of the General Differential Equation for the Ultracentrifuge; I. Introduction; II. Simple Exact and Approximate Solutions; III. General Properties Suggesting Possible Experiments; References; Comments
  • VII. ConclusionReferences; Chapter 7. Sedimentation of Reversibly Aggregating Substances; I. Introduction; II. Basic Postulates; III. Example; References; Comments; Chapter 8. Effects of Charge on the Sedimentation, the Diffusion and the Sedimentation Equilibrium of Colloidal Electrolytes; I. Introduction; II. General Equations; III. Sedimentation Equilibrium, Sedimentation, and Diffusion; IV. The Quantities Derived from Experimental Diagrams; V.A Model of the Solution; VI. Final Equations for the Molecular Weight; VII. The Primary Charge Effect; References; PART II: EQUILIBRIUM THEORY
  • Chapter 9. Basic Equilibrium Theory I. Introduction; II. General Equations; III. Two-Component Systems; IV. Three-Component Systems; V. Polycomponent Systems; Comments; Chapter 10. Sedimentation Equilibrium in Reacting Systems; I. Introduction; II. Theory; III. Discussion; References; Comments; Chapter 11. The Transient State in Density-Gradient Centrifugation; I. The Continuity Equation for the Problem; II. The Equilibrium Distribution; III. The Transient Distribution; IV. Moments of the Transient Distribution; V. Possible Applications; VI. Effects of Density Heterogeneity

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