Free Mechanical Engineering Online Courses

Mechanical engineering is the discipline that applies engineering, physics, and materials science principles to design, analyze, manufacture, and maintain mechanical systems. It is one of the oldest and broadest of the engineering disciplines.

The mechanical engineering field requires an understanding of core areas including mechanics, dynamics, thermodynamics, materials science, structural analysis, and electricity. In addition to these core principles, mechanical engineers use tools such as computer-aided design (CAD), and product life cycle management to design and analyze manufacturing plants, industrial equipment and machinery, heating and cooling systems, transport systems, aircraft, watercraft, robotics, medical devices, weapons, and others. It is the branch of engineering that involves the design, production, and operation of machinery.

If you are looking for online mechanical engineering classes to advance your career, we provide free courses from top universities for all learners worldwide:

• Mechanics of Material Systems: An Energy Approach,  MIT
• Engineering Mechanics I,  MIT
• Solid Mechanics,  MIT
• Structural Engineering Design,  MIT
• Mechanics and Design of Concrete Structures,  MIT
• Engineering Mechanics II,  MIT
• Solid Mechanics Laboratory,  MIT
• Exploring Sea, Space, & Earth: Fundamentals of Engineering Design,  MIT
• Toy Product Design,  MIT
• How and Why Machines Work,  MIT
• Mechanics & Materials I,  MIT
• Mechanics and Materials II,  MIT
• Engineering Dynamics,  MIT
• Modeling Dynamics and Control I,  MIT
• Dynamics and Control I (Spring 2007),  MIT
• Dynamics and Control I (Fall 2007),  MIT
• Dynamics and Vibration (13.013J),  MIT
• Dynamics and Control II,  MIT
• Systems, Modeling, and Control II,  MIT
• Modeling Dynamics and Control II,  MIT
• Design and Manufacturing I,  MIT
• Design and Manufacturing II (Spring 2004),  MIT
• Design and Manufacturing II (Spring 2003),  MIT
• Hydrodynamics (13.012),  MIT
• Design of Electromechanical Robotic Systems,  MIT
• Design of Ocean Systems,  MIT
• Systems and Controls,  MIT
• Fluid Dynamics,  MIT
• Numerical Computation for Mechanical Engineers (Spring 2013),  MIT
• Numerical Computation for Mechanical Engineers (Fall 2012),  MIT
• Engineering Math: Differential Equations and Linear Algebra,  MIT
• Finite Element Analysis of Solids and Fluids I,  MIT
• Introduction to Robotics,  MIT
• Analysis and Design of Feedback Control Systems,  MIT
• Intermediate Heat and Mass Transfer,  MIT
• Nano-to-Macro Transport Processes,  MIT
• Mechanical Engineering Tools,  MIT
• Project Laboratory,  MIT
• Optics,  MIT
• Elements of Mechanical Design,  MIT
• Mechatronics,  MIT
• 2nd Summer Introduction to Design,  MIT
• Special Topics in Mechanical Engineering: The Art and Science of Boat Design,  MIT
• Designing Paths to Peace,  MIT
• Biomimetic Principles and Design,  MIT
• Undergraduate Thesis for Course 2-A,  MIT
• Mechanical Behavior of Materials,  MIT
• Transport Phenomena in Materials Engineering,  MIT
• Micro/Nano Processing Technology,  MIT
• Mobile Autonomous Systems Laboratory,  MIT
• Process Dynamics, Operations, and Control,  MIT
• Applications of Continuum Mechanics to Earth, Atmospheric, and Planetary Sciences,  MIT
• Introduction to Fluid Motions, Sediment Transport, and Current-Generated Sedimentary Structures,  MIT
• Structure of Earth Materials,  MIT
• Unified Engineering I, II, III, & IV,  MIT
• Dynamics,  MIT
• Aerodynamics,  MIT
• Structural Mechanics,  MIT
• Aerospace Dynamics,  MIT
• Technology in Transportation,  MIT
• Engineering Design and Rapid Prototyping (January IAP 2007),  MIT
• Engineering Design and Rapid Prototyping (January IAP 2005),  MIT
• Fields, Forces and Flows in Biological Systems,  MIT
• Introduction to Applied Nuclear Physics,  MIT
• Physics of Rock Climbing,  MIT
• Lego Robotics,  MIT
• D-Lab II: Design,  MIT
• Prototypes to Products,  MIT
• Special Topics at Edgerton Center:Developing World Prosthetics,  MIT
• Design for Demining,  MIT
• Water Jet Technologies,  MIT
• Wheelchair Design in Developing Countries,  MIT
• Technical Design: Scenery, Mechanisms, and Special Effects,  MIT
• Projects in Microscale Engineering for the Life Sciences,  MIT
• Engineering Design Instructional Computer System (EDICS),  MIT
• Continuum Electromechanics,  MIT
• Electromechanical Dynamics,  MIT
• Advanced Fluid Dynamics of the Environment,  MIT
• From Nano to Macro: Introduction to Atomistic Modeling Techniques,  MIT
• Dynamics,  MIT
• Nonlinear Dynamics and Waves,  MIT
• Special Topics in Mathematics with Applications: Linear Algebra and the Calculus of Variations,  MIT
• Wave Propagation,  MIT
• Advanced Structural Dynamics and Acoustics (13.811),  MIT
• Computational Ocean Acoustics (13.853),  MIT
• Structural Mechanics,  MIT
• Plates and Shells,  MIT
• Finite Element Analysis of Solids and Fluids II,  MIT
• Modeling and Simulation of Dynamic Systems,  MIT
• Maneuvering and Control of Surface and Underwater Vehicles (13.49),  MIT
• Identification, Estimation, and Learning,  MIT
• Signal Processing: Continuous and Discrete,  MIT
• Analysis and Design of Digital Control Systems,  MIT
• Marine Hydrodynamics (13.021),  MIT
• Design Principles for Ocean Vehicles (13.42),  MIT
• Hydrofoils and Propellers,  MIT
• Ocean Wave Interaction with Ships and Offshore Energy Systems (13.022),  MIT
• Advanced Fluid Mechanics,  MIT
• Compressible Fluid Dynamics,  MIT
• Turbulent Flow and Transport,  MIT
• Numerical Fluid Mechanics,  MIT
• Numerical Marine Hydrodynamics (13.024),  MIT
• Internal Combustion Engines,  MIT
• Marine Power and Propulsion,  MIT
• Introduction to Naval Architecture (13.400),  MIT
• Precision Machine Design,  MIT
• Multi-Scale System Design,  MIT
• Design of Medical Devices and Implants,  MIT
• Tribology,  MIT
• Control of Manufacturing Processes (SMA 6303),  MIT
• Introduction to Manufacturing Systems,  MIT
• Mechanical Assembly and Its Role in Product Development,  MIT
• Biomedical Devices Design Laboratory,  MIT
• Sailing Yacht Design (13.734),  MIT
• Mechanics of Materials,  MIT
• Mechanical Behavior of Materials,  MIT
• Electronic and Mechanical Properties of Materials,  MIT
• Fracture and Fatigue,  MIT
• Symmetry, Structure, and Tensor Properties of Materials,  MIT
• Mechanical Behavior of Plastics,  MIT
• Furniture Making,  MIT
• Game Theory with Engineering Applications,  MIT
• Continuum Electromechanics,  MIT
• Integrated Microelectronic Devices,  MIT
• Physics of Microfabrication: Front End Processing,  MIT
• Design and Fabrication of Microelectromechanical Devices,  MIT
• Submicrometer and Nanometer Technology,  MIT
• Organic Optoelectronics,  MIT
• Theory of Solids I,  MIT
• Theory of Solids II,  MIT
• Mechanics of Fluids,  MIT
• Introduction to Seismology,  MIT
• Fluid Dynamics of the Atmosphere and Ocean,  MIT
• Wave Motion in the Ocean and the Atmosphere,  MIT
• Wave Motions in the Ocean and Atmosphere,  MIT
• Turbulence in the Ocean and Atmosphere (Spring 2007),  MIT
• Turbulence in the Ocean and Atmosphere (Spring 2006),  MIT
• Inference from Data and Models,  MIT
• Atmospheric and Oceanic Modeling,  MIT
• Compressible Flow,  MIT
• Aerodynamics of Viscous Fluids,  MIT
• Internal Flows in Turbomachines,  MIT
• Interfacial Phenomena,  MIT
• Random Walks and Diffusion,  MIT
• Fields, Forces, and Flows in Biological Systems (BE.430J),  MIT
• Engineering of Nuclear Reactors,  MIT
• Thermal Hydraulics in Power Technology,  MIT
• Structural Mechanics in Nuclear Power Technology,  MIT
• Statistical Thermodynamics of Complex Liquids,  MIT
• Nuclear Power Plant Dynamics and Control,  MIT
• Industrial Design Intelligence: A Cognitive Approach to Engineering,  MIT
• Topics in Fluid Dynamics,  MIT
• Finite Element Procedures for Solids and Structures,  MIT