Arama Sonuçları - "(thermodynamics OR thermodynamic)."
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Önerilen Konular
- Engineering Thermodynamics, Heat and Mass Transfer 2
- Heat engineering 2
- Heat transfer 2
- Mass transfer 2
- Thermodynamics 2
- Analytical Chemistry 1
- Analytical chemistry 1
- Applied Dynamical Systems 1
- Building materials 1
- Chemistry, Physical and theoretical 1
- Chemistry, Technical 1
- Classical Mechanics 1
- Dynamics 1
- Industrial Chemistry 1
- Mechanical Engineering 1
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Modeling Thermodynamic Distance, Curvature and Fluctuations A Geometric Approach /
Baskı/Yayın Bilgisi 2016İçindekiler: “…Reference Frames -- Calculus with Vectors and Differential Forms -- Elements of Riemann Geometry -- Equilibrium Thermodynamics -- Thermodynamics as a Contact Geometry Structure -- Thermodynamic Distance -- Geometrization of Thermodynamic Fluctuations -- Thermodynamic Curvature. Correlation. …”
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2
The Notion of Activity in Chemistry
Baskı/Yayın Bilgisi 2017İçindekiler: “…1st part: The Activity in Classical Thermodynamics -- Thermodynamic systems -- Gibbs and Helmhotz energies -- Escaping tendency and molar Gibbs energy -- Partial molar properties -- Chemical potential or partial molar Gibbs energy -- An overview of the notion of activity -- The concept of fugacity -- Ideal solutions -- Definitions of the activity -- Activity of a gaz -- Activities of non- electrolytes in solutions -- Activities of electrolytes: definitions -- Determination of the activity of non-electrolytes -- Determination of the activity of electrolytes -- Debye and Hückel 's relations -- Excess Gibbs energies and activities -- Chemical equilibrium constants : activities and Gibbs energies of reactions -- Derivation of thermodynamic equilibrium constants- pH and its measure -- General principles of calculations of ionic species concentrations in solutions involving activities -- 2nd part: The Activity in Statistical Thermodynamics -- Statistical thermodynamics in brief -- Concept of ensembles and postulates -- The canonical ensemble: notion of distribution -- Thermodynamic quantities in the framework of the canonical ensemble -- Other ensembles -- Systems of molecules and subsystems independent distinguishable and "indistinguishable" -- Perfect gases -- Classical statistical mechanics- Notion of configuration - Classical canonical partition function -- The configurational partition function - Molecular distribution functions -- The radial distribution function -- Radial distribution function and thermodynamic quantities- calculations of the internal energy and of the pressure of a system -- Radial distribution function and calculation of the isothermal compressibility coefficient of a system -- The chemical potential and the radial distribution function: General formal introduction of the activity and of the activity coefficient -- Imperfect gases - The virial coefficients in terms of interaction potential energies -- A statistical expression of the activity: A relation between it and the concentration in the case of an imperfect gaz -- Activities of gases in a mixture of imperfect gases -- Chemical equilibria between gases and statistical thermodynamics -- Activity coefficients of gases -- Activities and concentrations of non-electrolytes in dilute liquid solutions - McMillan- Mayer's theory of their osmotic pressure -- A study of dilute solutions of non-electrolytes at constant pressure and temperature -- The activity coefficients of solutes in binary non-electrolyte solutions -- Molecular distribution functions in binary mixtures -- The Kirkwood-Buff's theory- Changes of chemical potentials of solutes with their concentrations at constant pressure and temperature -- Expressions of the chemical potentials of the components of ideal solutions of non-electrolytes.…”
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3
Thermal Stresses-Advanced Theory and Applications
Baskı/Yayın Bilgisi 2019İçindekiler: “…Multiply Connected Regions -- 9 Constitutive Laws of Linear Thermoelasticity -- 10 Displacement Formulation of Thermoelasticity -- 11 Stress Formulation of Thermoelasticity -- 12 Two-Dimensional Thermoelasticity -- 13 Michell Conditions -- 14 Problems -- Chapter 2: Thermodynamics of Elastic Continuum -- 1 Introduction -- 2 Thermodynamics Definitions -- 3 First Law of Thermodynamics -- 4 Second Law of Thermodynamics -- 5 Variational Formulation of Thermodynamics -- 6 Thermodynamics of Elastic Continuum -- 7 General Theory of Thermoelasticity -- 8 Free Energy Function of Hookean Materials -- 9 Fourier's Law and Heat Conduction Equation -- 10 Generalized Thermoelasticity, Second Sound -- 11 Thermoelasticity without Energy Dissipation -- 12 A Unified Generalized Thermoelasticity -- 13 Uniqueness Theorem -- 14 Variational Principle of Thermoelasticity -- 15 Reciprocity Theorem -- 16 Initial and Boundary Conditions -- 17 Problems -- Chapter 3: Basic Problems of Thermoelasticity -- 1 Introduction -- 2 Temperature Distribution for Zero Thermal Stress -- 3 Analogy of Thermal Gradient with Body Forces -- 4 General Solution of Thermoelastic Problems -- 5 Solution of Two-Dimensional Navier Equations -- 6 General Solution in Cylindrical Coordinates -- 7 Solution of Problems in Spherical Coordinates -- 8 Problems -- Chapter 4: Heat Conduction Problems -- 1 Introduction -- 2 Problems in Rectangular Cartesian Coordinates -- 3 Problems in Cylindrical Coordinates -- 4 Problems in Spherical Coordinates -- 5 Problems -- Chapter 5: Thermal Stresses in Beams -- 1 Introduction -- 2 Thermal Stresses in Beams -- 3 Deflection Equation of Beams -- 4 Boundary Conditions -- 5 Shear Stress in a Beam -- 6 Beams of Rectangular Cross Section -- 7 Transient Stresses in Rectangular Beams -- 8 Beam with Internal Heat Generation -- 9 Bimetallic Beam -- 10 Functionally Graded Beams -- 11 Transient Stresses in FGM Beams -- 12 Thermal Stresses in Thin Curved Beams and Rings -- 13 Deflection of Thin Curved Beams and Rings -- 14 Problems -- Chapter 6: Disks, Cylinders, and Spheres 2591 Introduction -- 2 Cylinders with Radial Temperature Variation -- 3 Thermal Stresses in Disks -- 4 Thick Spheres -- 5 Thermal Stresses in a Rotating Disk -- 6 Non-axisymmetrically Heated Cylinders -- 7 Method of Complex Variables -- 8 Functionally Graded Thick Cylinders -- 9 Axisymmetric Stresses in FGM Cylinders -- 10 Transient Thermal Stresses in Thick Spheres -- 11 Functionally Graded Spheres -- 12 Problems -- Chapter 7: Thermal Expansion in Piping Systems -- 1 Introduction -- 2 Definition of the Elastic Center -- 3 Piping Systems in Two Dimensions -- 4 Piping Systems in Three Dimensions -- 5 Pipelines with Large Radius Elbows -- 6 Stiffness Method -- 7 RotationMatrix -- 8 Transformation Matrix -- 9 Flexibility Matrix of a Single Member -- 10 Flexibility Matrix of a Branch -- 11 Flexibility Matrix of a Straight Member -- 12 Flexibility Matrix of a Bend Member -- 13 Problems -- Chapter 8: Coupled and Generalized Thermoelasticity -- 1 Introduction -- 2 Governing Equations of Coupled Thermoelasticity -- 3 Coupled Thermoelasticity for Infinite Space -- 4 Variable Heat Source -- 5 One-Dimensional Coupled Problem -- 6 Propagation of Discontinuities -- 7 Half-Space Subjected to a Harmonic Temperature -- 8 Coupled Thermoelasticity of Thick Cylinders -- 9 Green-Naghdi Model of a Layer -- 10 Generalized Thermoelasticity of Layers -- 11 Generalized Thermoelasticity in Spheres and Cylinders -- 12 Problems -- Chapter 9: Finite and Boundary Element Methods -- 1 Introduction -- 2 Galerkin Finite Element -- 3 Functionally Graded Layers -- 4 Coupled Thermoelasticity of Thick Spheres -- 5 Generalized Thermoelasticity of FG Spheres -- 6 Generalized Thermoelasticity of FG Disk -- 7 HigherOrder Elements -- 8 Functionally Graded Beams -- 9 Thermally Nonlinear GeneralizedThermoelasticity -- 10 Boundary Element Formulation -- Chapter 10: Thermally Induced Vibrations -- 1 Introduction -- 2 Thermally Induced Vibrations of Isotropic Beams -- 3 Thermally Induced Vibration of FGM Beams -- 4 Thermally Induced Vibration of Shallow Arches -- Chapter 11: Creep Analysis -- 1 Introduction -- 2 Creep of Metals -- 3 Constitutive Equation of Uniaxial Creep -- 4 Creep Relaxation, Linear Rheological Models -- 5 Three-Dimensional Governing Equations -- 6 Creep Potential, General Theory of Creep -- 7 Stress Function for Creep Problems -- 8 Creep Linearization -- 9 Creep Relaxation of Axisymmetric Stresses -- 10 Creep Relaxation of Non-axisymmetric Stresses -- 11 Thermoelastic Creep Relaxation in Beams.12 Problems -- Subject Index.…”
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