| 000 | 05719nam a2200277 i 4500 | ||
|---|---|---|---|
| 007 | cr mn||||||||| | ||
| 008 | 110526s2009 gw a ob 001 0 eng d | ||
| 020 | _z9783642010132 | ||
| 020 | _z364201013X | ||
| 040 |
_aBAUN _beng _cBAUN _erda |
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| 049 | _aBAUN_MERKEZ | ||
| 050 | 0 | 4 |
_aQD453 _b.F565 2009 |
| 100 | 1 | _aFink, Johannes Karl. | |
| 245 | 1 | 0 |
_aPhysical chemistry in depth / _cJohannes Karl Fink. |
| 264 | 1 |
_aHeidelberg ; _aNew York : _bSpringer, _cc2009. |
|
| 300 |
_axviii, 588 pages : _billustrations ; _c26 cm. |
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| 336 |
_2rdacontent _atext _btxt |
||
| 337 |
_2rdamedia _aunmediated _bn |
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| 338 |
_2rdacarrier _avolume _bnc |
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| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_t-- Chapter 1: Mathematics of Thermodynamics _t-- Some Properties of Special Functions _t-- Functional Dependence _t-- Change of the Arguments _t-- Total Differential _t-- Chain Rule _t-- Substantial Derivative _t-- Conversion of Differentials _t-- Legendre Transformation _t-- Law of Schwarz _t-- Pfaffian Forms _t-- Differentials of Functions _t-- Euler's Theorem _t-- Series _t-- Analysis _t-- Coordinate Systems _t-- Chapter 2: Foundations of Thermodynamics _t-- Idealization _t-- Energy _t-- Energy Forms _t-- Energy Representation _t-- System _t-- Conservation Laws _t-- Process _t-- Transformers _t-- Reservoir _t-- Constraint Makers _t-- Fundamental Equations _t-- Partial Quantities _t-- Thermodynamic Derivatives _t-- Thermodynamic Similarity _t-- Gibbs - Duhem Equations _t-- The Principle of Finite Energy _t-- The Minimum Energy Principle _t-- Energy of a Quadratic Form _t-- Maximum of Entropy _t-- Coupled Energy Forms _t-- Dimensionless Relative Variables _t-- Stability _t-- Phases _t-- Chapter 3: The Laws of Thermodynamics _t-- Zeroth Law of Thermodynamics _t-- First Law of Thermodynamics _t-- Second Law of Thermodynamics _t-- Third Law of Thermodynamics _t-- Chapter 4: Equations of State _t-- The Ideal Gas _t-- Internal Pressure _t-- The van der Waals Gas _t-- Incompressible Body _t-- Corresponding States _t-- Chapter 5: Thermodynamic Processes _t-- Mechanical Heat Equivalent _t-- Buoyancy _t-- Processes in the Electric Field _t-- Isentropic Process _t-- Changes of Energy with Matter _t-- Isothermal Process _t-- Isodynamic Process _t-- Joule Thomson Process _t-- Chapter 6: Equilibrium _t-- Energy and Entropy Formulation _t-- Mechanical and chemical Equilibrium _t-- Isodynamic and Equilibrium Processes _t-- Setting Up the Equations for Equilibrium _t-- Thermodynamic Functions _t-- Diffusion Equilibria of Gases _t-- A Glance on the Constraint Equations _t-- Barometric Formula _t-- Phase Transition Points _t-- Colligative Properties _t-- Isopiestics _t-- Equilibrium of Distillation _t-- Unlike Energy Forms _t-- Chapter 7: The Phase Rule _t-- A Schematic Phase Diagram _t-- The Concept of Freedom _t-- Derivation of the Phase Rule _t-- Maximum Number of Phases _t-- Eulers Polyhedral Formula _t-- Polyhedral Formula and Phase Rule _t-- Chapter 8: Troutons Rule _t-- Dimensionless Variables _t-- Phase Equilibrium _t-- Chapter 9: Thermodynamic Cycles _t-- Thermodynamic Cycles Have Edges _t-- Chapter 10: Thermodynamic Paradoxes _t-- Gibbs Paradox _t-- Maxwell - Boltzmann Paradox _t-- Maxwells Demon _t-- Loschmidts Paradox _t-- Thermodynamic Inequalities _t-- Chemical Vapor Deposition _t-- The Thermodynamics of Black Holes _t-- The Perpetuum Mobile _t-- Negative Heat Capacities _t-- Expansion of an Incompressible Body _t-- Fixing the Extensive Variables _t-- Changes in Chemical Potential and Pressure _t-- Chapter 11: Dimensional Analysis _t-- Units _t-- The Minimal Set of Basic Fundamental Units _t-- The Nature of a Physical Quantity _t-- Illustrative Examples _t-- Chapter 12: Generating Functions _t-- Computation of Probabilities _t-- Computation of the Number of Isomers _t-- Calculation of Isotopic Patterns _t-- Forms of Generating Functions _t-- Solution of Systems of Differential Equations _t-- Statistical Thermodynamics _t-- Adsorption Isotherms _t-- Chapter 13: Stoichiometry _t-- Half-Reaction Method _t-- Balancing by Inspection _t-- A Challenging Balance _t-- Balancing with Generating Functions _t-- Further Examples _t-- Chapter 14: Nomenclature _t-- Nomenclature Systems _t-- A Nomenclature for Simple Chemicals _t-- Machine-Readable Representations _t-- File Formats _t-- Chemical Markup Language _t-- Molecules as Graphs _t-- Chapter 15: Symmetry _t-- Noethers Symmetry Theorem _t-- Group Theory _t-- Stereochemistry _t-- Woodward - Hoffmann Rules _t-- Chemical Kinetics _t-- Dipole Moments _t-- Mechanics _t-- Thermodynamics _t-- Crystallography _t-- Biosciences _t-- Chapter 16: Harmony _t-- Tools of Harmony _t-- Vibrating String _t-- Particle in a Box _t-- Fourier Transform Techniques _t-- Chapter 17: Generating Functions in Polymer Science _t-- Polymerization _t-- Polycondensation _t-- Degradation _t-- Chapter 18: Chemical Kinetics _t-- Formal Kinetics _t-- Stochastic Nature of Chemical Kinetics _t-- Mechanical - Chemical Analogy _t-- Chapter 19: Transport Phenomena _t-- The Equations of Continuity _t-- Capillary Flow _t-- Irreversible Thermodynamics _t-- Chapter 20: Separation Science _t-- Particle Motion in a Homogeneous Field _t-- Charge Particle in a Quadrupole Field _t-- The Filter as an Instrument in Analytical Chemistry _t-- Alternating Regression in GC/MS _t-- Chapter 21: Stochastic Processes _t-- Ludo _t-- Wiener or Brown Process _t-- Generalization of the Formalism _t-- Stochastic Motion _t-- Related Differential Equations _t-- Chapter 22: Structure - Property Relationships _t-- Increments _t-- Graph Theoretical Numbers _t-- Chapter 23: Factorial Designs _t-- Simplex Method _t-- Monte Carlo Methods _t-- General Rules for Setting Up a Design _t-- Time Series |
| 650 | 0 | _aChemistry, Physical and theoretical. | |
| 900 | _a31211 | ||
| 900 | _bsatın | ||
| 942 |
_2lcc _cKT |
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| 999 |
_c27624 _d27624 |
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