Cross sections and rate constants for physical and chemical processes /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Chernyi, G. G.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Reston, Va. : American Institute of Aeronautics and Astronautics, 2002.
Edición:English ed.
Colección:Progress in astronautics and aeronautics ; v. 196.
Temas:
Gas dynamics.
Dynamique des gaz.
Gas dynamics
dissertations.
Academic theses
Academic theses.
Thèses et écrits académiques.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title
  • Copyright
  • Contents
  • Preface
  • Chapter 1 General Notions and Essential Quantities
  • I. Particles and Processes Under Consideration
  • II. Physical Quantities, Notations, and Units of Measurement
  • A. Physical Quantities
  • B. Physical Constants and Units of Measure
  • III. Description and Characteristics of Interacting Particles
  • A. General Notation of Particles
  • B. Extended Notation of Particle States (Subscripts/Superscripts)
  • C. Electronic, Vibrational, and Rotational States
  • D. Statistical Weight (Multiplicity) of Electronic StatesE. Statistical Weight (Multiplicity), Vibrational Frequency, Vibrational Energy, and Characteristic Vibrational Temperature of Molecules and Molecular Ions
  • F. Statistical Weight (Multiplicity), Rotational Energy, and Characteristic Rotational Temperature of Molecules and Molecular Ions
  • IV. Classical Pattern of Binary Collisions of Particles
  • V. Characteristic Dynamic Parameters
  • A. Scales of Length and Time
  • B. Characteristic Criteria
  • VI. Particle Distribution over Velocities and Energy: Temperatures of Different Degrees of FreedomVII. Mean Relative Velocity of Particles in a Gas
  • VIII. Partition Functions and the Mean Energy of Particles in a Gas
  • A. Partition Functions
  • B. Mean Energy of Particles (Per Particle)
  • C. Assumptions
  • IX. Heat of Reaction
  • X. Relation Between Particle Number and Gas Pressure
  • XI. Formulas for the Rate Constants of Specific Processes
  • A. Rate Constant for Arbitrary Energy Dependence of the Process Cross Section
  • B. Formulas for Cross Sections and Rate ConstantsReferences
  • Chapter 2 Elastic Collisions in Gases and Plasmas (T Models)
  • I. Elastic Collisions of Neutral Particles (X + Y-+X + Y)
  • A. Hard-Sphere Model (T.1)
  • B. Repulsive Power-Law Potential Model (T.2)
  • C. Hard-Sphere Model with Variable Diameter (T.3)
  • D. Model Based on Lennardâ€?Jones Potential (T.4)
  • E. Model Based on Bornâ€?Mayer Potential (T.5)
  • F. Model of Attracting Particles (T.6)
  • II. Elastic Collisions Involving Charged Particles
  • A. Effective Radius Approximation for Electronâ€?Atom and Electronâ€?Molecule Collisions (T.7)B. Classical Approximation for Electronâ€?Molecule Collisions (T.8)
  • C. Born Approximation for Electronâ€?Molecule Collisions (T.9)
  • D. Model of Electron Scattering by Molecule with High Dipole Moment (T.10)
  • E. Classical Approximation for Ionâ€?Atom and Ionâ€?Molecule Collisions (T.11)
  • F. Model Based on the Bornâ€?Mayer Repulsive Potential for Ion Collisions with Neutral Particles (T.12)
  • G. Model Based on the Shielded Coulomb Potential (T.13)
  • References

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