Preface |
Introduction |
Modeling Methodology Using COMSOL Multiphysics 4.x / Chapter 1: |
Guidelines for New COMSOL Multiphysics 4.x Modelers |
Hardware Considerations |
Simple Model Setup Overview |
Basic Problem Formulation and Implicit Assumptions |
ID Window Heat Flow Models |
1D 1 Pane Window Heat Flow Model |
1D 2 Pane Window Heat Flow Model |
1D 3 Pane Window Heat Flow Model |
First Principles as Applied to Model Definition |
Some Common Sources of Modeling Errors |
References |
Suggested Modeling Exercises |
Materials Properties Using COMSOL Multiphysics 4.x / Chapter 2: |
Materials Properties Guidelines and Considerations |
COMSOL Materials Properties Sources |
Other Materials Properties Sources |
Material Property Entry Techniques |
Multi-Pane Window Model |
0D Electrical Circuit Interface Modeling Using COMSOL Multiphysics 4.x / Chapter 3: |
Guidelines for Electrical Circuit Interface Modeling in 4.x |
Electrical/Electronic Circuit Considerations |
Simple Electrical Circuit Interface Model Setup Overview |
0D Basic Circuit Models |
0D Resistor-Capacitor Series Circuit Model |
0D Inductor-Resistor Series Circuit Model |
0D Series-Resistor Parallel-Inductor-Capacitor Circuit Model |
0D Basic Circuit Models Analysis and Conclusions |
First Principles as Applied to 0D Model Definition |
1D Modeling Using COMSOL Multiphasics 4.x / Chapter 4: |
Guidelines for 1D Modeling in 4.x |
1D Modeling Considerations |
1D Basic Models |
1D KdV Equation Model |
1D Telegraph Equation Model |
1D Spherically Symmetric Transport Model |
1D Spherically Symmetric Transport Model Animation |
First Principles as Applied to 1D Model Definition |
2D Modeling Using COMSOL Multiphysics 4.x / Chapter 5: |
Guidelines for 2D Modeling in 4.x |
2D Modeling Considerations |
2D Basic Models |
2D Electrochemical Polishing Model |
2D Hall Effect Model |
First Principles as Applied to 2D Model Definition |
2D Axisymmetric Modeling Using COMSOL Multiphysics 4.x / Chapter 6: |
Guidelines for 2D Axisymmetric Modeling in 4.x |
2D Axismmetric Modeling Considerations |
2D Axisymmetric Basic Models |
2D Axisymmetric Cylinder Conduction Model |
2D Axisymmetric Transient Heat Transfer Model |
First Principles as Applied to 2D Axisymmetric Model Definition |
2D Simple Mixed Mode Modeling Using COMSOL Multiphysics 4.x / Chapter 7: |
Guidelines for 2D Simple Mixed Mode Modeling in 4.x |
2D Simple Mixed Mode Modeling Considerations |
2D Simple Mixed Mode Models |
2D Electric Impedance Sensor Model |
2D Metal Layer on a Dielectric Block Model |
First Principles as Applied to 2D Simple Mixed Mode Model Definition |
2D Complex Mixed Mode Modeling Using COMSOL Multiphysics 4.x / Chapter 8: |
Guidelines for 2D Complex Mixed Mode Modeling in 4.x |
2D Complex Mixed Mode Modeling Considerations |
2D Complex Mixed Mode Models |
2D Copper Electroplating Model |
2D Electrocoalescence Oil/Water Separation Model |
First Principles as Applied to 2D Complex Mixed Mode Model Definition |
3D Modeling Using COMSOL Multiphysics 4.x / Chapter 9: |
Guidelines for 3D Modeling in 4.x |
3D Modeling Considerations |
3D Models |
3D Spiral Coil Microinductor Model |
3D Linear Microresistor Beam Model |
First Principles as Applied to 3D Model Definition |
Perfectly Matched Layer Models Using COMSOL Multiphysics 4.x / Chapter 10: |
Guidelines for Perfecdy Matched Layer (PML) Modeling in 4.x |
Perfecdy Matched Layer (PML) Modeling Guidelines and Coordinate Considerations |
Perfecdy Matched Layer Models |
2D Concave Metallic Mirror PML Model |
2D Energy Concentrator PML Model |
First Principles as Applied to PML Model Definition |
Bioheat Models Using COMSOL Multiphysics 4.x / Chapter 11: |
Guidelines for Bioheat Modeling in 4.x |
Bioheat Modeling Considerations |
Bioheat Transfer Models |
2D Axisymmetric Tumor Laser Irradiation Model |
2D Axisymmetric Microwave Cancer Therapy Model |
First Principles as Applied to Bioheat Model Definition |
Index |
Preface |
Introduction |
Modeling Methodology Using COMSOL Multiphysics 4.x / Chapter 1: |