STEM Fundamentals
Mechanical Engineering — Explore the principles of mechanics, materials, and energy to design and build physical objects and mechanical systems.
Mechanical Engineering
Develop complete control over your instrument by understanding fretboard geometry, practical music theory, and modern digital tone-shaping workflows.
Mechanical Engineering
Learn schematic capture, multi-layer routing, and manufacturing preparation by designing a custom miniature microcontroller board.
Mechanical Engineering
Explore the chemical foundations, thermal properties, and polymer structures of composite materials to design innovative solutions like smart packaging.
Mechanical Engineering
Learn to design and model complex systems using Object Process Methodology to streamline communication and bridge the gap between conceptual ideas and technical execution.
Mechanical Engineering
Learn open-source engineering simulation using OpenFOAM and FOAM-extend to solve solid mechanics problems and build a strong foundation for fluid dynamics.
Mechanical Engineering
Learn to transform electronic schematics into professional printed circuit boards ready for manufacturing, even with no prior design experience.
Mechanical Engineering
Learn to set up, solve, and analyze fluid flow simulations using ANSYS Fluent, transitioning from core physics to practical engineering design and modern workflows.
Mechanical Engineering
Model and analyze chemical processes in the oil and gas industry by building simulations from the ground up.
Mechanical Engineering
Understand the essential properties, classifications, and clinical uses of impression materials, gypsum, and dental ceramics for modern dental laboratory workflows.
Mechanical Engineering
Learn the core biochemical and chemical engineering methods used to produce penicillin, designed for students and aspiring bioprocess technicians.
Mechanical Engineering
Learn the fundamentals of computational fluid dynamics by setting up, running, and analyzing classic fluid mechanics cases using open-source OpenFOAM.
Mechanical Engineering
Master the essentials of ASME and ISO GD&T standards to read, interpret, and apply engineering drawings accurately in mechanical and manufacturing projects.
Mechanical Engineering
Explore the principles of Industry 4.0 and learn how digital workflows, smart technologies, and data-driven design are transforming modern manufacturing.
Mechanical Engineering
Master the principles of static equilibrium, force systems, and structural analysis to solve real-world engineering design and modeling challenges.
Mechanical Engineering
Build a solid foundation in material properties and manufacturing processes to select the right materials for any engineering project.
Mechanical Engineering
Transition from paper-based to digital workflows in modern manufacturing and understand how digital twins and smart factory concepts shape the industry.
Mechanical Engineering
Learn how to conceptualize, design, and analyze nanoscale structures using modern fabrication techniques and characterization tools through clear, step-by-step written guides.
Mechanical Engineering
Learn how to transform digital concepts into physical objects using modern additive manufacturing technologies and materials.
Mechanical Engineering
Learn to model fluid flow, heat transfer, and turbulence using industry-standard numerical simulation tools through clear written guidance.
Mechanical Engineering
Learn the core principles of mechanical engineering design, from analyzing stress and fatigue failure to selecting materials and sizing shafts and fasteners.
Mechanical Engineering
Master the core principles of additive manufacturing, explore sustainable materials, and learn how to prepare digital designs for high-quality 3D prints.
Mechanical Engineering
Learn to evaluate and select optimal materials for mechanical components by understanding properties, performance requirements, and modern manufacturing constraints.
Mechanical Engineering
Build a strong foundation in chemical principles and quantitative problem-solving for careers in science, healthcare, or environmental policy.
Mechanical Engineering
Discover how the internal structure and processing of metals, ceramics, and polymers determine their strength and performance in real-world applications.
Showing 24 of 654 courses