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Part I: Continuum Mechanics and Classical Materials
Introduction to Continuum Mechanics
Materials with Constitutive Equations That Are Local in Time
Part II: Continuum Thermodynamics and Constitutive Equations of Mechanics and Electromagnetism
Principles of Thermodynamics
Free Energies and the Dissipation Principle
Thermodynamics of Materials with Memory
Thermoelectromagnetism of Continuous Media
Part III: Free Energies for Materials with Linear Memory
A Linear Memory Model
Viscoelastic Solids and Fluids
Heat Conductors
Free Energies on Special Classes of Material
The Minimum Free Energy
Representation of the Minimum Free Energy in the Time Domain
Minimum Free Energy for Viscoelastic Solids, Fluids, and Heat Conductors
The Minimum Free Energy for a Continuous-Spectrum Material
The Minimum Free Energy for a Finite-Memory Material
Free Energies for the Case of Isolated Singularites
Constructing Free Energies for Materials with Memory
Minimal States and Periodic Histories
Second Order Approximation for Heat Conduction: Dissipation Principle and Free Energies
Free Energies for Nonlinear Materials with Memory
Free Energies for Nonlocal Materials
The Minimum and Related Free Energies for Dielectric Materials
Fractional Derivative Models of Materials with Memory
Part IV: The Dynamical Equations for Materials with Memory
Existence and Uniqueness
Controllability of Thermoelastic Systems with Memory
The Saint-Venant Problem for Viscoelastic Materials
Exponential Decay
Semigroup Theory for Abstract Equations with Memory
Identification Problems for Integrodifferential Equations
Dynamics of Viscoelastic Fluids
Conventions and Some Properties of Vector Spaces
Some Properties of Function on the Complex Plane
Fourier Transformations.

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