Engineering 100 is an engineering studentâs first taste of what it is to be a practicing engineer! (Spring 2007), Special Topics in Mathematics with Applications: Linear Algebra and the Calculus of Variations The University of Texas at El Paso College of Engineering Mechanical Engineering Engineering Building, Room A-126 500 W University El Paso, Texas 79968 E: tellME@utep.edu P: ⦠Caer o No caer. (Fall 2003), Numerical Methods for Partial Differential Equations (SMA 5212) Schoolcraft College is a public Metro Detroit community college based in Livonia, Wayne County Michigan. (Spring 2007), Modeling Dynamics and Control I Exploration Course students gain invaluable experience collaborating with peers and developing critical thinking skills. What is STEM? Links to archived prior versions of a course may be found on that course's "Other Versions" tab. Today, mechanical engineering is one of the broadest and most versatile of the engineering professions. (Fall 2006), Micro/Nano Engineering Laboratory (Spring 2007), Nonlinear Dynamics and Chaos Bases y estructuras para la protección de la información, Advanced Leadership for Engineers: Leading Teams, Organizations and Networks, Making Biologic Medicines for Patients: The Principles of Biopharmaceutical Manufacturing. Teleportation is the hypothetical transfer of matter or energy from one point to another without traversing the physical space between them. Software engineering has expanded into numerous fields; the most exciting and promising are cloud and mobile computing. (Fall 2014), Finite Element Analysis of Solids and Fluids I Disciplinary depth and breadth, together with hands-on discovery and physical realization, characterize our nationally and internationally recognized leadership in research, education, and innovation. MechE majors may choose from three SB degree programs, including the traditional mechanical engineering degree, the flexible Course 2-A engineering degree, or the joint mechanical engineering/ocean engineering degree. To help you in getting started with this course, we have a course introduction video that will provide you with an overview of the course syllabus.We then begin the course with this introductory module in which we address the nature of systems and the concept of a system life cycle. The Engineering Advising Center (EAC) provides academic services and support for first year and undeclared students. (Spring 2007), Internal Combustion Engines Class of 2020, Bachelor of Science in Mechanical Engineering âI have dreamed of working on space exploration and at Disney World since I was a kid and I had the opportunity to do both thanks to the College of Engineeringâs mandatory co-op program.â Read More (Fall 2004), Nonlinear Dynamics and Waves Instrumentation, controls, and other technologies required for medical therapies and biomedical exploration; Vehicles, acoustics, and control systems for underwater exploration and environmental monitoring ... the flexible Course 2-A engineering degree, or the joint mechanical engineering/ocean engineering degree. The course is presented in a standard format of lectures, readings and problem sets. (Spring 2008), Systems and Controls (Fall 2007), Dynamics and Control I (Fall 2013), Compressible Fluid Dynamics The course is taught in two sections-Graphics and Manufacturing. The Graduate Program in Mechanical Engineering creates a community of top-notch scholars by bringing together faculty members and graduate students with a common interest in innovation, creativity, and advanced professional study. (Fall 2015), MADM with Applications in Material Selection and Optimal Design Welcome to the Engineering Advising Center! Course materials from last year, Spring 2020 Final Report Specifications Transitioning to Online Course Expectations for Pod Facilitators Design Review Specs and Critique REVISED Pods for Presentations Schedule Spring 2020 Syllabus 2020 and Earlier Lecture Notes (Spring 2017), Superconducting Magnets (Fall 2005), Biomedical Information Technology MIT OpenCourseWare is an online publication of materials from over 2,500 MIT courses, freely sharing knowledge with learners and educators around the world. (Fall 2006), Mechanics and Materials II Energy Systems Integration: A Trend or a Revolution? (Fall 2002), Biomimetic Principles and Design Exploration Education Science is a great way to study STEM as you go through the physical science courses. (Spring 2004), Computational Ocean Acoustics (13.853) Send to friends and colleagues. (Spring 2006), Desalination and Water Purification USC Viterbi School of Engineering â DEN@Viterbi. Mechanical Behavior of Materials, Part 1: Linear Elastic Behavior, Energía eléctrica: conceptos y principios básicos, Management in Engineering: Strategy and Leadership, Engineering Calculus and Differential Equations, Agile Innovation and Problem Solving Skills, Product Design: The Delft Design Approach, LaTeX for Students, Engineers, and Scientists, Introducción a la energía solar fotovoltaica: El módulo fotovoltaico, Introduction to Electrical and Electronic Engineering - 電気電子工学入門 -, Electrical, Optical & Magnetic Materials and Devices, C Programming: Modular Programming and Memory Management, Circular Economy for a Sustainable Built Environment, Circuits and Electronics 2: Amplification, Speed, and Delay, Introducción a la programación en C: Tipos de datos y estructuras, C Programming: Pointers and Memory Management, Supply Chains for Manufacturing: Inventory Analytics, Protección de datos personales en la era digital, Agile Process, Project, and Program Controls. Towards a Robotic Science of Human Beings, Tsunamis and Storm Surges: Introduction to Coastal Disasters, Introducción a la Ingeniería del Helicóptero, El suelo en el Sistema de Siembra Directa. (Spring 2007), Submicrometer and Nanometer Technology What do Architects and Urban Planners do? Courses (Fall 2000), Identification, Estimation, and Learning (Fall 2013), Plates and Shells Covers data exploration and data mining principles, techniques, and applications with a variety of integrated theoretical and practical examples in classification, association analysis, cluster analysis, and anomaly detection. (Fall 2016), Ethics for Engineers: Artificial Intelligence (Spring 2004), Design and Manufacturing II Introduction to Engineering: Imagine. (Fall 2006), Teaching College-Level Science and Engineering (Spring 2004), Optical Engineering (Spring 2009), Toy Product Design Design. There's no signup, and no start or end dates. Services include academic advising, personal counseling, career exploration, goal setting and workshops to facilitate student success. For more information about our undergraduate programs, please visit: http://meche.mit.edu/academic/undergraduate. (Spring 2008), Systems, Modeling, and Control II (Spring 2004), Turbulent Flow and Transport (Fall 2001), Multi-Scale System Design MIT mechanical engineers have always stood at the forefront in tackling the engineering challenges of the day: inventing new technologies, spawning new fields of study, and educating generations of leaders in industry, government, and academia. The Aeronautics and Astronautics curriculum emphasizes the disciplines of aerodynamics, aerospace systems, astrodynamics and space applications, propulsion, structures and materials, dynamics and control, and further provides courses that integrate these disciplines into the design of flight vehicles to perform the required mission. (Spring 2006), Precision Machine Design This is reflected in the portfolio of current research and education activities in the department, one that has widened rapidly in the past decade. (Spring 2003), Design and Manufacturing I (Spring 2005), Hydrofoils and Propellers (Fall 2013), Introduction to Sustainable Energy Drillholes LP20-159, LP20-161 and LP20-163 were drilled in Q4 2020 testing the 100 meter gap between Targets A and B, 300 to 350 meters from surface. (Spring 2012), Clean and renewable energy technologies, including research in photovoltaics, wind energy, fuel cells, thermoelectrics, and carbon capture, New thermal and membrane technologies required for water purification and desalination, Instrumentation, controls, and other technologies required for medical therapies and biomedical exploration, Vehicles, acoustics, and control systems for underwater exploration and environmental monitoring, Structured materials and advanced technologies for protection and security of our first responders and soldiers, Precision devices, machines, and robotics. (Fall 2004), System Design and Analysis based on AD and Complexity Theories Inner Engineering offers a unique opportunity for self-exploration and transformation, leading to a life of fulfillment and joy. ), Learn more at Get Started with MIT OpenCourseWare. Over 100 career profiles to help students explore careers in science, technology, engineering, and math. (Spring 2008), Introduction to Robotics We also offer professional degrees that emphasize comprehensive learning with broad applicability to industry. Energy ─ The Technology You Must Know in the 21st Century | 能源 ─ 21世紀你必須了解的科技! (January IAP 2007), Biomedical Devices Design Laboratory » Freely browse and use OCW materials at your own pace. (Spring 2006), Thermal Hydraulics in Power Technology (Fall 2014), Numerical Computation for Mechanical Engineers Some prior versions of courses listed above have been archived in OCW's DSpace@MIT repository for long-term access and preservation. Let’s Get Principled: Values, Culture & Intelligent Disobedience! (Spring 2007), Ocean Wave Interaction with Ships and Offshore Energy Systems (13.022) Mechanical Engineering. Let’s Get Emotional: Emotions & Emotional Intelligence! ... MADS 507 Practical Data Engineering. (Fall 2014), Biomaterials-Tissue Interactions Read More Inner Engineering is available in a variety of course ⦠¡Conceptos básicos de Python para Data Science! The University of Texas at El Paso College of Engineering Engineering Building Room A-148 500 W University El Paso, Texas 79968 E: engineer@utep.edu P: (915) 747-6444 F: (915) 747-5437 Consult the Admissions ⦠(Fall 2012), Introduction to Heat Transfer Winter Quarter 2021; Spring Quarter 2021; Summer Quarter 2021; CSE 112 Advanced Placement (AP) Computer Science A (4) NW, QSR Course awarded based on Advanced Placement (AP) score. (Spring 2006), Signal Processing: Continuous and Discrete Introducción a Oil Country Tubular Goods (OCTG), Fundamentals of Automotive Crash Safety | 汽车碰撞安全基础, Surface Science: Methods of Surface Analysis, A System View of Communications: From Signals to Packets (Part 2), Design of mound breakwaters for feasibility studies. If you are ready to find the Science, Technology, Engineering, and Mathematics program that is right for you, select the option from the drop-down below that best fits your current goals. (January IAP 2007), Introduction to Numerical Analysis for Engineering (13.002J) (Spring 2011), Introduction to Numerical Simulation (SMA 5211) (Fall 2005), Statistical Thermodynamics of Biomolecular Systems (BE.011J) (Spring 2015), Numerical Marine Hydrodynamics (13.024) In essence, the material treated in this course is a brief survey of relevant results from geometry, kinematics, statics, dynamics, and control. Design, Manufacturing, & Product Development, Exploring Sea, Space, & Earth: Fundamentals of Engineering Design A student in Professor Martin Culpepper's Course 2.72 Elements of Mechanical Design races to work down a steel rod with the lathe his team made as part of a final challenge. The course is designed to simulate a real-world engineering environment where teamwork, communication, and creativity are the keys to success. (Spring 2015), Introduction to Manufacturing Systems (Spring 2002), Mechatronics (Spring 2003), Introduction to Ocean Science and Engineering Log in to view your courses offered through DEN@Viterbi, explore tools and features, and customize your eLearning experience for programs and courses supported by DEN@Viterbi. (Spring 2004), Fields, Forces and Flows in Biological Systems (Fall 2012), Engineering Math: Differential Equations and Linear Algebra (Fall 2006), Marine Hydrodynamics (13.021) Download files for later. Learn about engineering and more from the best universities and institutions around the world. For more information about our graduate programs, please visit: In addition to the Mechanical Engineering courses listed below, see also OCW’s Supplemental Resources associated with the department. (Spring 2016), Principles of Naval Architecture (Spring 2007), Molecular, Cellular, and Tissue Biomechanics (Spring 2003), Macromolecular Hydrodynamics (Fall 2013), Undergraduate Thesis for Course 2-A Made for sharing. Modify, remix, and reuse (just remember to cite OCW as the source. (Fall 2004), Quantitative Physiology: Organ Transport Systems (Fall 2003), Direct Solar/Thermal to Electrical Energy Conversion Technologies “Monotsukuri” Making Things in Japan: Mechanical Engineering, Modern Japanese Architecture: From Meiji Restoration to Today, Mechanics of Deformable Structures: Part 2, Understanding Wireless: Technology, Economics, and Policy, Advanced Introductory Classical Mechanics, Jugando con Android: aprende a programar tu primera app, Mechanics of Deformable Structures: Part 1, Electronic Interfaces: Bridging the Physical and Digital Worlds, Robotics: Vision Intelligence and Machine Learning, Arduino Programming, from novice to ninja, Robotics: Kinematics and Mathematical Foundations, Product Management with Lean, Agile and System Design Thinking, Analysis of Transport Phenomena II: Applications, Capstone Exam – Materials for Electronic, Optical, and Magnetic Devices, Lean Six Sigma Yellow Belt: Quantitative Tools for Quality and Productivity, Computer Science Essentials for Software Development, xMinor in Materials for Electronic, Optical, and Magnetic Devices, Program Management and the Art of Communication, Desarrollo y gestión de proyectos informáticos, Sustentabilidad energética y la smart grid, Logística para micro y pequeñas empresas - MYPES, Quantum Technology: Detectors and Networking, Engineering Project Management: Mastering Project Complexity, Engineering Project Management: Project Financing, Quantum 101: Quantum Computing & Quantum Internet, Business Excellence in a knowledge-driven Industry 4.0 world, Gestión de la protección de datos personales en línea, Reliability and Decision Making in Engineering Design, Siembra Directa: agricultura productiva sustentable, Chemistry and Technology for Sustainability, Internet de las cosas (IoT), Big Data y sus aplicaciones, DevOps Foundations: Software Development Optimization, Identificación de productos en el mundo logístico, Fundamentos de DevOps: Optimiza el desarrollo de software, Sparse Representations in Signal and Image Processing, Colaboración organizacional y redes de valor. (Spring 2007), Economics of Marine Transportation Industries (Spring 2009), D-Lab II: Design (Fall 2004), Dynamics of Nonlinear Systems (Fall 2009), Decision Making in Large Scale Systems Anyone who is interested in learning more about the petroleum industry is welcome to join this introductory course. (January IAP 2003), Special Topics in Mechanical Engineering: The Art and Science of Boat Design (Spring 2009), Elements of Mechanical Design (January IAP 2007), Dynamics (Spring 2004), Marine Autonomy, Sensing and Communications Our faculty and students are involved in projects that aim to bring engineering solutions to a spectrum of global challenges, including the development and design of: To meet these challenges, research in the department is coordinated across seven collaborative disciplinary thrust areas: Our undergraduate programs combine a broad-based education in the engineering sciences with project-based laboratory and design subjects to give graduates a strong grounding in quantitative, problem-solving, design, and communications skills. (Fall 2009), Fields, Forces, and Flows in Biological Systems (Spring 2003), Acoustical Oceanography STEM is an acronym for Science, Technology, Engineering, and Math.In the education field we are finding wonderful advantages for students who are able to study these topics as they are integrated into the students' curriculum. (Spring 2005), Design Principles for Ocean Vehicles (13.42) Our programs have been recognized and availed by Robert Bosch, Suzuki, and Hyundai to the name of a few. (Spring 2012), Principles of Oceanographic Instrument Systems -- Sensors and Measurements (13.998) Join MIT Professor Jeffrey Hoffman, a former NASA astronaut who made five spaceflights and was the first astronaut to log 1000 hours on the Space Shuttle, as he teaches you the core principles behind space travel and exploration. (Spring 2009), Design and Manufacturing II It is a common subject in science fiction literature, film, video games, and television.Teleportation is often paired with time travel, being that the travelling between the two points takes an unknown period of time, sometimes being immediate. (Spring 2003), Quantum Computation The jpeg compression is written from scratch. (Fall 2010), Mechanical Engineering Tools (Fall 2011), Dynamics and Control I (Fall 2008), Design of Medical Devices and Implants » This course introduces prospective engineering students to mathematical concepts relevant in engineering while emphasizing the solving of engineering problems rather than mathematical derivations and theory. Massachusetts Institute of Technology. Design Thinking: Ideation, Iteration and Communication, Industry 4.0: How to Revolutionize your Business, Effective Communication for Program and Project Stakeholders and Teams, Sprint Planning for Faster Agile Team Delivery, Diseña, fabrica y programa tu propio robot, Structural Materials: Selection and Economics, C Programming: Using Linux Tools and Libraries, Engineering Design for a Circular Economy, Writing, Presenting and Submitting Scientific Papers in English | 英文科技论文写作与学术报告, Differential Equations: Linear Algebra and NxN Systems of Differential Equations, Managing Conflicts on Projects with Cultural and Emotional Intelligence, Introducción a la robótica e industria 4.0, Introducción a las ecuaciones diferenciales, Diagramas UML estructurales para la Ingeniería del Software, The Conquest of Space: Space Exploration and Rocket Science, Nuclear Energy: Science, Systems and Society, Transfer Functions and the Laplace Transform, Design Thinking: Empathizing to Understand the Problem, Introduction to Management Information Systems (MIS): A Survival Guide, Introducción a la Inteligencia Artificial: Principales Algoritmos, Embedded Systems - Shape The World: Multi-Threaded Interfacing, Fundamentals of Biomedical Imaging: Ultrasounds, X-ray, positron emission tomography (PET) and applications, Sustainable Energy: Design a Renewable Future, Ingeniería de aeropuertos: diseño del lado aire según OACI (ICAO), Introducción a la programación en C: Funciones y punteros, Sustainable Urban Freight Transport: A Global Perspective, Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows, Stochastic Processes: Data Analysis and Computer Simulation, Forensic Engineering: Learning from Failures, Introducción al Control Numérico por Computadora, Energías convencionales, limpias y su tecnología, Design Thinking: Prototyping and User Testing, Electronic, Optical, and Magnetic Properties of Materials, 有限元分析与应用 | Finite Element Method (FEM) Analysis and Applications, Let’s Get Happy: Happiness Drives Performance, Seguridad Vial en América Latina y el Caribe: de la teoría a la acción, Real-Time Bluetooth Networks - Shape the World, Global Health Informatics to Improve Quality of Care, Industria 4.0: fundamentos y alcances en el sistema eléctrico, Mechanical Behavior of Materials, Part 2: Stress Transformations, Beams, Columns, and Cellular Solids, Huella Hídrica: una mirada integral al uso del agua, Biorefinery: From Biomass to Building Blocks of Biobased Products, Introducción a los dispositivos electrónicos, Mercados de carbono: una forma de mitigar el cambio climático, Introduction to Computer Numerical Control, Trazabilidad: la clave de la eficiencia logística, Smart grid: las redes eléctricas del futuro, Intro to Traffic Flow Modeling and Intelligent Transport Systems, Introducción al Internet de las cosas (IoT) y sus aplicaciones, Introduction to Running Pipe in Oil and Gas Wells, Circuitos Eléctricos en Corriente Alterna, Introducción a la programación en C: Instrucciones de control y ficheros de texto, Métodos numéricos para matemáticas con Octave, Mercados de energía: oportunidades de negocio, Mechanical Behavior of Materials, Part 3: Time Dependent Behavior and Failure, Hypersonics – from Shock Waves to Scramjets, Fundamentals of Biomedical Imaging: Magnetic Resonance Imaging (MRI), Responsible Innovation: Ethics, Safety and Technology, Research Methods: An Engineering Approach, Catalytic Conversions for Biobased Chemicals and Products, Using GPUs to Scale and Speed-up Deep Learning, Sustainability Science – A Key Concept for Future Design, Solar Energy Engineering: Comprehensive Exams, Irrigation Efficiency: more food with less water, The Radio Sky I: Science and Observations, Minerals and Mining in a Sustainable World, L’eau et les sols - Hydrodynamique des milieux poreux, Sparse Representations in Signal and Image Processing: Fundamentals, Programming for Everyone – An Introduction to Visual Programming Languages, Identificación de producto con códigos de barras, Introducción a la visión por computador: desarrollo de aplicaciones con OpenCV, Using Photovoltaic (PV) Technology in Desert Climates, La Reforma Energética de México y sus oportunidades, Introducción al diseño de hardware con Verilog, Inclusive Energy Systems - Exploring Sustainable Energy for All, Solar Resource Assessment in Desert Climates, A System View of Communications: From Signals to Packets (Part 1), Introduction to Oil Country Tubular Goods (OCTG), Fundamentos de la colaboración en las organizaciones, Technology Innovation for Sustainable Development, Dispositivos Móviles para la Gestión del Territorio, Sparse Representations in Image Processing: From Theory to Practice, Microstructural Evolution of Materials Part 1: Statistical Mechanics, The Software Architect Code: Building the Digital World, Fundamentos de las comunicaciones móviles: en la palma de tu mano, Materiales avanzados en ingeniería derivados de laminados compuestos, Silicon Photonics Design, Fabrication and Data Analysis, A Resilient Future: Science and Technology for Disaster Risk Reduction, A System View of Communications: From Signals to Packets (Part 3).