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Mechanical Engineering Institutionally known as "Course 2," the MIT Department of Mechanical Engineering (ME) is the second oldest and second largest academic program at MIT. The editors of U.S. News & World Report, among others, consistently rank it the top graduate and undergraduate mechanical engineering program among North American colleges and universities. Its students are drawn from all 50 states and more than 50 countries. Its alumni are leaders in business and industry, education and government; they range from CEOs of Fortune 500 companies, to astronauts on the Space Shuttle, to award-winning scholars, inventors, entrepreneurs and innovators. In 2005, Mechanical Engineering merged with the Department of Ocean Engineering (Course 13) to create a new department made up of approximately 75 faculty, 367 undergraduate students, 227 doctoral students, and 281 masters program students. Following the merger, the newly formed department retained its original name, the Department of Mechanical Engineering, which includes the Center for Ocean Engineering. As ME enters a new phase of its existence, it recognizes that its future lies in seven key "thrust areas" that will define its research and scholarly agenda. These areas have their foundations rooted in the Institute's 100-plus year history of research defined by the Scientific Method, their vibrant growth by the cross-pollination of interdisciplinary studies, and a potential yield of inventions and innovations only limited by the imagination and ingenuity of its faculty, researchers and students. They are: Mechanics Product Realization Controls, Instrumentation & Robotics Energy Science & Engineering Ocean Science & Engineering Bio-Mechanics & Engineering Micro/Nano Mechanics & Engineering More than two-dozen research laboratories and centers provide ME faculty, research scientists, post-doctoral associates and undergraduate and graduate students the opportunities to meet the challenges of the future by developing ground-breaking innovations today. Undergraduate Courses How and Why Machines Work, Spring 2002 Mechanics & Materials I, Spring 2003 Mechanics and Materials II, Spring 2004 Modeling Dynamics and Control I, Spring 2005 Dynamics and Vibration (13.013J), Fall 2002 Modeling Dynamics and Control II, Spring 2003 Design and Manufacturing I, Spring 2005 Design and Manufacturing II, Spring 2003 Design and Manufacturing II, Spring 2004 Introduction to Ocean Science and Engineering, Spring 2006 Hydrodynamics (13.012), Fall 2005 Design of Systems Operating in Random Environments, Spring 2006 Design of Ocean Systems, Fall 2005 Introduction to Modeling and Simulation, Spring 2006 Information and Entropy, Spring 2003 Introduction to Robotics, Fall 2005 Intermediate Heat and Mass Transfer, Fall 2001 Fundamentals of Energy in Buildings, Fall 2003 Mechanical Engineering Tools, January (IAP) 2004 Projects Laboratory, Spring 2004 Elements of Mechanical Design, Spring 2006 Mechatronics, Spring 1999 Statistical Thermodynamics of Biomolecular Systems (BE.011J), Spring 2004 Thermodynamics of Biomolecular Systems, Fall 2005 Introduction to Bioengineering (BE.010J), Spring 2006 Quantitative Physiology: Cells and Tissues, Fall 2004 Quantitative Physiology: Organ Transport Systems, Spring 2004 Quantitative Physiology: Cells and Tissues, Fall 2004 Management in Engineering, Fall 2004 2nd Summer Introduction to Design, January (IAP) 2003 Designing Paths to Peace, Fall 2002 Introduction to Numerical Analysis for Engineering (13.002J), Spring 2005 Designing Paths to Peace, Fall 2002 Graduate Courses Dynamics, Fall 2004 Nonlinear Dynamics and Chaos, Fall 2004 Wave Propagation, Fall 2004 Advanced Structural Dynamics and Acoustics (13.811), Spring 2004 Computational Ocean Acoustics (13.853), Spring 2003 Structural Mechanics (13.10J), Fall 2002 Plates and Shells, Spring 2006 Ship Structural Analysis & Design (13.122), Spring 2003 Structural Mechanics in Nuclear Power Technology, Spring 2004 Computer Methods in Dynamics, Fall 2002 Finite Element Analysis of Solids and Fluids, Spring 2002 Introduction to Numerical Simulation (SMA 5211), Fall 2003 Numerical Methods for Partial Differential Equations (SMA 5212), Spring 2003 Optimization Methods (SMA 5213), Fall 2004 Quantum Computation, Fall 2003 Modeling and Simulation of Dynamic Systems, Fall 2002 Maneuvering and Control of Surface and Underwater Vehicles (13.49), Fall 2004 Dynamics of Nonlinear Systems, Fall 2003 Computational Geometry, Spring 2003 Foundations of Software Engineering, Fall 2000 Identification, Estimation, and Learning, Spring 2006 Marine Hydrodynamics (13.021), Spring 2005 Design Principles for Ocean Vehicles (13.42), Spring 2005 Hydrofoils and Propellers (13.04), Fall 2003 Ocean Wave Interaction with Ships and Offshore Energy Systems (13.022), Spring 2002 Advanced Fluid Mechanics, Fall 2005 Compressible Fluid Dynamics, Spring 2004 Turbulent Flow and Transport, Spring 2002 Numerical Marine Hydrodynamics (13.024), Spring 2003 Submicrometer and Nanometer Technology, Spring 2006 NEW Nano-to-Macro Transport Processes, Fall 2004 Radiative Transfer, Spring 2006 Fundamentals of Advanced Energy Conversion, Spring 2004 Internal Combustion Engines, Spring 2004 Fundamentals of Advanced Energy Conversion, Spring 2004 Superconducting Magnets, Spring 2003 Sustainable Energy, Spring 2005 Principles of Oceanographic Instrument Systems -- Sensors and Measurements (13.998), Spring 2004 NEW Introduction to Naval Architecture (13.400), Fall 2004 Optical Engineering, Spring 2002 Product Design and Development, Spring 2006 Precision Machine Design, Fall 2001 Multi-Scale System Design, Fall 2004 Multi-Scale System Design, Fall 2004 Noninvasive Imaging in Biology and Medicine, Fall 2005 Biomedical Information Technology (BE.453J), Spring 2005 Design of Medical Devices and Implants, Spring 2003 Cell-Matrix Mechanics, Spring 2004 Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 Molecular, Cellular and Tissue Biomechanics (BE.410J), Spring 2003 Biomaterials-Tissue Interactions (BE.441), Fall 2003 Tribology, Fall 2004 Control of Manufacturing Processes (SMA 6303), Spring 2004 System Optimization and Analysis for Manufacturing, Summer 2003 Manufacturing Systems Analysis, Spring 2004 Manufacturing Systems I (SMA 6304), Fall 2004 Mechanical Assembly and Its Role in Product Development, Fall 2004 System Design and Analysis based on AD and Complexity Theories, Spring 2005 Proseminar in Manufacturing, Fall 2005 Sailing Yacht Design (13.734), Fall 2003 Decision Making in Large Scale Systems, Spring 2004 http://ocw.mit.edu/OcwWeb/Mechanical-Engineering/index.htm |
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