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Course
Highlights
This two-day course is open to anyone interested in using COMSOL Multiphysics for the mathematical modeling of physics phenomena. Learn how to use the COMSOL Multiphysics graphical user interface to model physics phenomena in a wide variety of application areas. Gain hands-on experience by creating and solving mathematical models step-by-step, and get an overview of COMSOL Multiphysics's capabilities and the modeling process.
Participants will also beef up their knowledge of COMSOL Multiphysics with advanced modeling techniques.
Course
Objectives
- To provide potential and current COMSOL Multiphysics users useful insights into detailed modeling techniques
- To educate technical professionals on how to utilize the COMSOL Multiphysics graphical user interface
- To enable participants on learning the basic strategies of mathematical modeling as well as time-saving tips that will allow them to focus on their own engineering interests
Prerequisites
This hands-on workshop requires only a basic knowledge of mathematical modeling. No previous experience with COMSOL Multiphysics and no MATLAB skills are required.
Who Must Attend
This course is suitable for anyone interested in using COMSOL Multiphysics for the mathematical modeling of physics phenomena such as heat transfer, transport phenomena, fluid dynamics, electromagnetics, photonics, structural mechanics, and acoustics.
Course
Outline
Day One
- Introduction to COMSOL Multiphysics graphical user interface -- all the steps from creating a geometry to postprocessing
- Case Study 1: Microresistor Beam
- 3D geometry drawing in Comsol
- Geometry import from other CAD programs
- Multiphysics modeling -- the mutual coupling of multiple physics equations
- Single physics and multiphysics analyses
Day Two
- Case Study 2: Laminar Static Mixer
- 3D geometry drawing in Comsol
- Multiphysics modeling and analyses
- Configuring 3D plotting
- Selecting the best solver and set the corresponding solver parameters
- Mesh control
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