Learn COMSOL Multiphysics: From Beginner to Confident User

Learn COMSOL Multiphysics from scratch: geometry, physics setup, boundary conditions, meshing, solvers, and analysis.

What you'll learn
- Navigate the COMSOL Multiphysics interface with confidence
- Build 2D and 3D geometries using primitives and parametric tools
- Assign physics modules, materials, and boundary conditions
- Create structured and unstructured meshes for complex models
- Set up and solve simulations using proper solver configurations
- Post-process results with cut planes, streamlines, and derived values
- Use a 7-step workflow to simulate real-world engineering problems

Requirements
- No prior COMSOL experience required as this course starts from the basics

Description
Learn COMSOL Multiphysics: From Beginner to Confident UserMasterCOMSOL Multiphysicsfrom scratch with a clear, hands-on, and beginner-friendly approach.

This course guides you step-by-step through the7-step simulation workflow, so you can confidently create and run simulations without getting lost in scattered documentation or confusing tutorials.

Who it’s for:

Engineering students, researchers, and professionals

Self-taught COMSOL users who want structured training

Anyone in Engineering, Sciences, or related fields who wants to model and simulate real-world systems

Beginners to finite element analysis (FEA) seeking hands-on learning

What You’ll Learn

By the end of this course, you’ll be able to:

Create2D and 3D geometriesfrom scratch

Assignmaterialsand definephysics modulesfor your simulations

Set upboundary and initial conditionsfor accurate results

Applymeshing strategiesfor better precision and efficiency

Configurestudies and solversfor steady-state and time-dependent analyses

Performpost-processingto interpret and present results

Work throughreal-world projectsfrom concept to final simulation

Course Structure:

Phase 1: Getting Started with COMSOLUnderstand COMSOL’s capabilities, interface, and the complete 7-step simulation workflow through guided examples.

Phase 2: Geometry Creation and SelectionsLearn to build precise 2D and 3D models, use parametric design, apply Boolean operations, and import CAD geometries.

Phase 3: Material Assignment, Physics Setup & Boundary ConditionsAssign materials, configure physics modules, and set realistic boundary and initial conditions.

Phase 4: Meshing and StudiesExplore mesh types, refinement techniques, solver settings, and study types for different simulation needs.

Phase 5: Post-processing and Results InterpretationVisualise results, create animations, generate plots, and export data for reports or presentations.

Phase 6: Real-World Projects & Intermediate SkillsApply your skills to complete practical projects, from heat sink cooling to fluid-structure interaction.

Why This Course Stands Out

Step-by-step tutorialswith no skipped steps

Downloadable COMSOL model filesfor practice

Quizzes and assignmentsto reinforce learning

Real-world examplesthat bridge theory and practice

Instructor with 8+ years’ experiencein simulations across heat transfer, fluid flow, structural mechanics, and multiphysics

Lifetime access and ongoing support

Disclaimer:This course is not affiliated with or sponsored by COMSOL AB. COMSOL Multiphysics® is a registered trademark of COMSOL AB and is used here for educational purposes only. For official support and licensing, please visit the COMSOL website.

Who this course is for:
- Engineering/Science students or researchers looking to learn COMSOL Multiphysics from scratch
- Self-taught learners who want a structured path to mastering COMSOL Multiphysics
- Engineering Professionals in mechanical, civil, or biomedical fields
- Anyone interested in solving real-world physics problems using simulation tools
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