Show where to find the lists of predefined multiphysics interfaces.Discuss why and how this approach is advantageous.Results plots displaying the electric potential (left), temperature (middle), and stress (right) for the thermal microactuator tutorial model, which is used throughout the course.Īn overview of the topics covered throughout the course are as follows: Part 1: Defining Multiphysics Models Automatically with Multiphysics Interfaces A COMSOL Multiphysics model of a thermal microactuator, with the electric potential visualized in a rainbow color table, the temperature visualized in a red-white color table, and the stress visualized using a rainbow color table.
#COMSOL MULTIPHYSICS MODELS HOW TO#
Through detailed explanations and step-by-step demonstrations, you will learn how to define the physics in order to simulate multiphysics in a model and how to implement both automated and manual couplings between physics interfaces.
These approaches range from employing a more automated implementation to a more manual implementation. For this course, we have broken down and categorized these numerous and various ways into three different approaches. In COMSOL Multiphysics ®, there are many possible ways physics interfaces can be coupled. This 5-part, self-paced course is an introduction to defining the physics for a multiphysics model.
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