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Contributing Authors; 1 Introduction; 1.1 Motivation; 1.2 Application Areas; 1.3 Scope of This Book; References; Part I Closed Form Solutions; 2 Verification Tests; 2.1 Heat Conduction; 2.1.1 A 1D Steady-State Temperature Distribution, Boundary Conditions of 1st Kind; 2.1.2 A 1D Steady-State Temperature Distribution, Boundary Conditions of 1st and 2nd Kind; 2.1.3 A 2D Steady-State Temperature Distribution, Boundary Conditions of 1st Kind; 2.1.4 A 2D Steady-State Temperature Distribution, Boundary Conditions of 1st and 2nd Kind; 2.1.5 A 3D Steady-State Temperature Distribution
2.1.6 A Transient 1D Temperature Distribution, Time-Dependent Boundary Conditions of 1st Kind; 2.1.7 Transient 1D Temperature Distributions, Time-Dependent Boundary Conditions of 2nd Kind; 2.1.8 Transient 1D Temperature Distributions, Non-Zero Initial Temperature, Boundary Conditions of 1st and 2nd Kind; 2.1.9 A Transient 2D Temperature Distribution, Non-Zero Initial Temperature, Boundary Conditions of 1st and 2nd Kind; 2.2 Liquid Flow; 2.2.1 A 1D Steady-State Pressure Distribution, Boundary Conditions of 1st Kind
2.2.2 A 1D Steady-State Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.2.3 A 2D Steady-State Pressure Distribution, Boundary Conditions of 1st Kind; 2.2.4 A 2D Steady-State Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.2.5 A 3D Steady-State Pressure Distribution; 2.2.6 A Hydrostatic Pressure Distribution; 2.2.7 A Transient 1D Pressure Distribution, Time-Dependent Boundary Conditions of 1st Kind; 2.2.8 Transient 1D Pressure Distributions, Time-Dependent Boundary Conditions of 2nd Kind
2.2.9 Transient 1D Pressure Distributions, Non-Zero Initial Pressure, Boundary Conditions of 1st and 2nd Kind; 2.2.10 A Transient 2D Pressure Distribution, Non-Zero Initial Pressure, Boundary Conditions of 1st and 2nd Kind; 2.3 Gas Flow; 2.3.1 A 1D Steady-State Gas Pressure Distribution, Boundary Conditions of 1st Kind; 2.3.2 A 1D Steady-State Gas Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.3.3 A 2D Steady-State Gas Pressure Distribution; 2.3.4 A 3D Steady-State Gas Pressure Distribution; 2.4 Deformation Processes; 2.4.1 An Elastic Beam Undergoes Axial Load
2.4.2 An Elastic Plate Undergoes Simple Shear; 2.4.3 An Elastic Cuboid Undergoes Load Due to Gravity; 2.4.4 Stresses Relax in a Deformed Cube of Norton Material; 2.4.5 A Cube of Norton Material Creeps Under Constant Stress; 2.4.6 A Cube of Norton Material Undergoes Tensile Strain Increasing Linearly with Time; 2.4.7 A Cube of Norton Material Undergoes Compressive Stress Increasing Linearly with Time; 2.5 Mass Transport; 2.5.1 Solute Transport Along Permeable Beams, Hydraulic and Solute Boundary Conditions of 1st and 2nd Kind
2.1.6 A Transient 1D Temperature Distribution, Time-Dependent Boundary Conditions of 1st Kind; 2.1.7 Transient 1D Temperature Distributions, Time-Dependent Boundary Conditions of 2nd Kind; 2.1.8 Transient 1D Temperature Distributions, Non-Zero Initial Temperature, Boundary Conditions of 1st and 2nd Kind; 2.1.9 A Transient 2D Temperature Distribution, Non-Zero Initial Temperature, Boundary Conditions of 1st and 2nd Kind; 2.2 Liquid Flow; 2.2.1 A 1D Steady-State Pressure Distribution, Boundary Conditions of 1st Kind
2.2.2 A 1D Steady-State Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.2.3 A 2D Steady-State Pressure Distribution, Boundary Conditions of 1st Kind; 2.2.4 A 2D Steady-State Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.2.5 A 3D Steady-State Pressure Distribution; 2.2.6 A Hydrostatic Pressure Distribution; 2.2.7 A Transient 1D Pressure Distribution, Time-Dependent Boundary Conditions of 1st Kind; 2.2.8 Transient 1D Pressure Distributions, Time-Dependent Boundary Conditions of 2nd Kind
2.2.9 Transient 1D Pressure Distributions, Non-Zero Initial Pressure, Boundary Conditions of 1st and 2nd Kind; 2.2.10 A Transient 2D Pressure Distribution, Non-Zero Initial Pressure, Boundary Conditions of 1st and 2nd Kind; 2.3 Gas Flow; 2.3.1 A 1D Steady-State Gas Pressure Distribution, Boundary Conditions of 1st Kind; 2.3.2 A 1D Steady-State Gas Pressure Distribution, Boundary Conditions of 1st and 2nd Kind; 2.3.3 A 2D Steady-State Gas Pressure Distribution; 2.3.4 A 3D Steady-State Gas Pressure Distribution; 2.4 Deformation Processes; 2.4.1 An Elastic Beam Undergoes Axial Load
2.4.2 An Elastic Plate Undergoes Simple Shear; 2.4.3 An Elastic Cuboid Undergoes Load Due to Gravity; 2.4.4 Stresses Relax in a Deformed Cube of Norton Material; 2.4.5 A Cube of Norton Material Creeps Under Constant Stress; 2.4.6 A Cube of Norton Material Undergoes Tensile Strain Increasing Linearly with Time; 2.4.7 A Cube of Norton Material Undergoes Compressive Stress Increasing Linearly with Time; 2.5 Mass Transport; 2.5.1 Solute Transport Along Permeable Beams, Hydraulic and Solute Boundary Conditions of 1st and 2nd Kind