Basic Methods in COMSOL Multiphysics
Fall term
Taught by Pablo Ferrada
In this course we will deal with the working desktop of COMSOL Multiphysics. We will study the basic concepts of the workflow and the different ways of execution. We will also cover workspace customization, creation of definitions, visualization and selection tools.
After taking this, you will know the basic utility and functionality of COMSOL Multiphysics for simulation in Science and Engineering. You will also be able to list, identify and use the basic modeling methods, such as model builder, component node, physics nodes, physics interface selection, model convergence and accuracy analysis, boundary conditions, etc.
- Modeling desktop
- COMSOL Multiphysics desktop and application library.
- Physical interfaces. Model wizard.
- Icons, toolbars and keyboard shortcuts.
- Basic concepts of modeling
- Generation of a COMSOL Multiphysics model.
- Model builder. Components.
- Physics nodes and boundary conditions.
- Convergence and accuracy.
- Customization of COMSOL Multiphysics desktop
- Customiztion.
- General preferences.
- Physics, Studies and Results advanced options.
- Definitions
- Global and local definitions.
- Operators, functions and constants.
- Predefined and built-in variables.
- Mass properties and template functions.
- Component couplings.
- Coupling operators and coordinate systems.
- Identity and contact pairs. Probes.
- Infinite elements and absorbing layers.
- Running COMSOL Multiphysics
- Client-server architectures.
- Distributed memory architecture.
- Cloud computing.
- Visualization and selection
- Tools for visualizing and controlling models.
- Geometric entities and named selections.
- User-defined views.
- Finite element and shape functions
- Shape functions.
- Background on related computational methods.
Image created using the COMSOL Multiphysics® software and courtesy of COMSOL.