AI-Accelerated Simulation
Learn to build AI surrogate models and use techniques like Physics-Informed Neural Networks (PINNs) to dramatically speed up complex scientific simulations.
24 courses
Learn open-source engineering simulation using OpenFOAM and FOAM-extend to solve solid mechanics problems and build a strong foundation for fluid dynamics.
Learn the fundamentals of computational fluid dynamics by setting up, running, and analyzing classic fluid mechanics cases using open-source OpenFOAM.
Learn to set up, run, and analyze fluid flow simulations using OpenFOAM, even if you have no prior experience with computational fluid dynamics.
Learn the fundamentals of fluid flow simulation and the Finite Volume Method by reading step-by-step code explanations.
Master the principles of fluid dynamics, analyze laminar and turbulent flows, and solve practical engineering problems through structured written explanations.
Master hydrostatic forces, pressure measurement, and buoyancy principles to solve core civil engineering fluid mechanics problems with confidence.
Learn to interpret concrete technical data sheets, understand material behavior under load, and apply solid mechanics principles to civil engineering projects.
Learn core software engineering principles, object-oriented design, and clean code practices by building a dynamic 2D simulation.
Master the core principles of fluid behavior, piping systems, and transport phenomena through structured written explanations and practical chemical engineering problems.
Master the fundamentals of finite control volume analysis to solve real-world fluid dynamics and engineering mechanics problems with confidence.
Learn to analyze fluid behavior, apply key equations, and solve core engineering mechanics problems through clear, step-by-step written explanations.
Master core fluid mechanics concepts and solve complex engineering problems with step-by-step written guides designed for civil and environmental engineering students.
Master the fundamentals of free surface flow and uniform steady flow to analyze and design efficient, sustainable civil hydraulic structures.
Learn to analyze and calculate uniform and gradually varied flow in open channels to design efficient civil and environmental water systems.
Master the fundamentals of unsteady flow in open channels, from core hydraulic derivations to modern wave propagation and flood routing principles.
Master foundational fluid dynamics, from container outflow and flow contraction to porous media analysis, through clear written explanations and practical engineering examples.
Master essential fluid dynamics principles, solve core engineering problems, and understand modern environmental flow systems through clear, step-by-step written analysis.
Master the fundamental principles of fluid behavior, pressure, and flow to confidently solve practical engineering mechanics problems.
Master core fluid mechanics principles and solve complex engineering mechanics problems with clear, written step-by-step explanations designed for civil engineering students.
Learn to set up, run, and analyze fluid flow and heat transfer simulations using STAR-CCM+ to solve real-world engineering challenges.
Showing 20 of 24 courses