El prestigioso Instituto de Tecnología de Massachusetts (MIT) ofrece 70 cursos en formato MOOC gratuitos para aprender de la mano de los profesores más reputados de esta institución.
Si lo tuyo es formarte en los campos especializados en ingenería, estadística, biología o física, esta recopilación es para ti.
El Instituto de Tecnología de Massachusetts, fundado hace ya 158 años, y a día de hoy es una de las mejores universidades del mundo por la calidad de sus temarios.
No pierdas la ocasión de apuntarte a alguno de estos cursos MOOC gratis del MIT y aprende con los mejores.
Obviamente todos ellos se imparten en idioma ingles, por lo que si necesitas mejorar tu nivel, puedes consultar algunos de los cursos de inglés gratits online que hemos promocionado anteriormente para cada nivel.
Cursos MOOC Gratis del MIT
A continuación puedes hacer clic en el curso que más te interese para acceder al temario y sus contenidos.
También puedes consultar otros cursos MOOC que ofrecen otros centros en eDX.
Mechanical Behavior of Materials, Part 1: Linear Elastic Behavior
Mechanical Behavior of Materials, Part 2: Stress Transformations, Beams, Columns, and Cellular Solids
Mechanical Behavior of Materials, Part 3: Time Dependent Behavior and Failure
Evaluación de Impacto de Programas Sociales
Structure of Materials
Visualizing Japan (1850s-1930s): Westernization, Protest, Modernity
AP® Microeconomics
Circuits and Electronics 1: Basic Circuit Analysis
Circuits and Electronics 2: Amplification, Speed, and Delay
Circuits and Electronics 3: Applications
Just Money: Banking as if Society Mattered
Tools for Academic Engagement in Public Policy
Molecular Biology – Part 3: RNA Processing and Translation
Qualitative Research Methods: Conversational Interviewing
Becoming an Entrepreneur
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The Iterative Innovation Process
Supply Chain Design
Manufacturing Process Control II
Management in Engineering I
Introduction to Computational Thinking and Data Science
The Analytics Edge
Quantitative Biology Workshop
Competency-Based Education: The Why, What, and How
Measuring Health Outcomes in Field Surveys
A Global History of Architecture
Site Planning Online
u.lab: Leading From the Emerging Future
Analysis of Transport Phenomena I: Mathematical Methods
Fundamentals of Statistics
Introduction to Differential Equations
Supply Chain Analytics
Mechanics: Momentum and Energy
Biochemistry: Biomolecules, Methods, and Mechanisms
Calculus 1B: Integration
Introduction to Biology – The Secret of Life
Data Analysis in Social Science—Assessing Your Knowledge
Supply Chain Technology and Systems
Minds and Machines
Supply Chain Analytics
Mechanics: Rotational Dynamics
Differential Equations: 2×2 Systems
Manufacturing Systems I
Management in Engineering II
Sustainable Building Design
Electronic, Optical, and Magnetic Properties of Materials
Probability – The Science of Uncertainty and Data
Mechanics: Simple Harmonic Motion
Machine Learning with Python: from Linear Models to Deep Learning
Supply Chain Fundamentals
Calculus 1C: Coordinate Systems & Infinite Series
Supply Chain Dynamics
Electricity and Magnetism: Electrostatics
Differential Equations: Linear Algebra and NxN Systems of Differential Equations
Supply Chains for Manufacturing I
Manufacturing Systems II
Electricity and Magnetism: Magnetic Fields and Forces
Differential Equations: Fourier Series and Partial Differential Equations
Fundamentals of Statistics
Electricity and Magnetism: Maxwell’s Equations
Supply Chain Design
Supply Chain Technology and Systems
Transfer Functions and the Laplace Transform
Launching Innovation in Schools
Supply Chain Fundamentals
Electrical, Optical & Magnetic Materials and Devices
Supply Chain Dynamics
Capstone Exam – Materials for Electronic, Optical, and Magnetic Devices
Visualizing Imperialism & the Philippines, 1898-1913
u.lab: Leading Change in Times of Disruption
Mastering Quantum Mechanics Part 3: Entanglement and Angular Momentum