2.011 Introduction to Ocean Science and Engineering MIT
This course is an introduction to the fundamental aspects of science and engineering necessary for exploring, observing, and utilizing the oceans. Hands-on projects focus on instrumentation in the marine environment and the design of
2.72 Elements of Mechanical Design MIT
Examination and practice in the application of many mechanical design elements, including control components. Students working in groups design, fabricate, and test prototype devices in response to requests from industrial sponsors.
2.58J Radiative Transfer MIT
Principles of thermal radiation and their application to engineering heat and photon fer problems. Quantum and classical models of radiative properties of materials, electromagnetic wave theory for thermal radiation,
2.693 Principles of Oceanographic Instrument Systems -- Sensors
This course introduces theoretical and practical principles of design of oceanographic sensor systems. Topics include: ducer characteristics for acoustic, current, temperature, pressure, electric, magnetic, gravity, salinity,
2.019 Design of Ocean Systems MIT
This course is the completion of the cycle of designing, implementing and testing an ocean system including hardware and software implementation, that begins with 2.017. Design lectures are given in hydrodynamics, power and thermal
2.160 Identification, Estimation, and Learning MIT
This course provides a broad theoretical basis for system identification, estimation, and learning. Students will study least squares estimation and its convergence properties, Kalman filters, noise dynamics and system representation,
2.017J Design of Systems Operating in Random Environments MIT
This class covers the principles for optimal performance and survival of extreme events in a random environment; linear time invariant systems and Fourier form; random processes, autocorrelation function, and power spectra.
2.772J Thermodynamics of Biomolecular Systems, Fall 2005 MIT
This subject deals primarily with equilibrium properties of macroscopic and microscopic systems, basic thermodynamics, chemical equilibrium of reactions in gas and solution phase, and macromolecular interactions
2.081J Plates and Shells MIT
This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate
2.761J Noninvasive Imaging in Biology and Medicine, Fall 2005 MIT
Principles of tomographic imaging using ionizing and non-ionizing radiation, and ultrasound. Emphasis is placed on fundamental physics and mathematics involved in image formation, including basic interactions, data acquisition and
m.i.t+mechanical+engineering: m.i.t+mechanical+engineering