COMSOL Multiphysics Essentials
What You Will Learn
✓ Master COMSOL's core physics modules for electrical systems, fluid flow, heat transfer, structural analysis, and pipe networks
✓ Control simulations using variables, parametric formulas, and data import with AI-assisted workflows
✓ Build and manage 3D geometries, apply material libraries, and simulate complex multi-physics behavior
✓ Complete real engineering projects including meshing, solving, post-processing, and mechanical contact simulations
✓ Develop end-to-end multiphysics models confidently from geometry creation to final result interpretation
By Shubham Saxena · Professor, IIT Roorkee
Advanced
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Trusted By 23.5K+ Engineers
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The Curriculum
Module-1 COMSOL Multiphysics
AC/DC Module
CFD Module
Heat Transfer Module
MEMS Module
Pipe Flow Module
Structural Mechanics Module
Module-2 Starting with COMSOL Multiphysics
Module-3 Global and Local Definitions
Module-4 Visualization and Selection Tools
Module-5 Geometry Modeling and CAD Tools
Module-6 Materials Overview
Module-7 Building a COMSOL Model
Module-8 Learning Projects
Module-9 Learning Projects
Module-10 Learning Projects
Requirements
• Basic engineering or physics knowledge
• COMSOL Multiphysics installed
• No prior simulation experience required
• Interest in structural, thermal, fluid, or multiphysics analysis
What to expect from this course
Explore COMSOL's major modules like AC/DC, CFD, Heat Transfer, Structural Mechanics, MEMS, and Pipe Flow to see how they're applied across engineering fields.
Master the desktop interface, Model Wizard, menus, and toolbars. Follow the essential steps for building simulations, with ChatGPT helping you understand the workflow.
Gain control over parametric modeling by creating variables, expressions, and functions. Import parameters from external files with AI assistance.
Work with geometry tools including selection lists, transparency, visibility controls, rendering, and custom selections to build precise models.
Add and edit nodes while using ChatGPT to guide you through geometry features.
Navigate material databases, assign properties correctly, browse libraries, and understand material behavior in multiphysics scenarios.
Build complete models using Model Builder manage nodes, toggle physics settings, save files, access model libraries, and explore advanced results with GPT support.
Apply your skills through hands-on projects: named selections, meshing, solver studies, results plotting, friction modeling, and cylindrical roller simulations for real engineering challenges.
Learn What Industry Wants
This Course includes:
6 Weeks (2-3 Hours/Week)
Unlimited Lifetime Access
Downloadable PDF E-Books
Certificate of Completion
Quizzes & Knowledge Checks
Downloadable Resources & Notes
Trusted by 23,500+ Engineering Students
4.4/5 (Average of 1500+ Ratings)
👉 2-Day Risk-Free Refund Policy
