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Browsing Materials Science and Engineering (3) - Archived by Title

Research and Teaching Output of the MIT Community

Browsing Materials Science and Engineering (3) - Archived by Title

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  • Boyle, Edward; Frey, Frederick; Bowring, Samuel; Grove, Timothy (2006-06)
    This is a laboratory course supplemented by lectures that focus on selected analytical facilities that are commonly used to determine the mineralogy, elemental abundance and isotopic ratios of Sr and Pb in rocks, soils, ...
  • Summons, Roger (2006-12)
    This course covers all aspects of molecular biosignatures from their pathways of lipid biosynthesis, the distribution patterns of lipid biosynthetic pathways with regard to phylogeny and physiology, isotopic contents, ...
  • Summons, Roger (2009-12)
    This course evaluates and discusses the formation and diagnostic structural properties of organic compounds with particular emphasis on those molecules which form chemical fossils. The course is structured around the ...
  • Greenstone, Michael (2004-06)
    This course explores the proper role of government in the regulation of the environment. It will help students develop the tools to estimate the costs and benefits of environmental regulations. These tools will be used to ...
  • Caballero, Ricardo (2004-12)
    This half-term course covers the macroeconomic implications of imperfections in labor markets, goods markets, credit and financial markets. The role of nominal rigidities is also an area of focus.
  • Antràs, Pol (2007-06)
    This course provides a graduate-level introduction to the field of international trade. It examines the theory of international trade and foreign investment with applications in commercial policy. Topics include gains from ...
  • Rosenfield, Donald B., 1947- (2002-12)
    Provides an integrative forum for operations and manufacturing students and is the focus for projects in leadership, service, and improvement. Covers a set of integrative manufacturing topics or issues such as leadership ...
  • Yannas, Ioannis; Spector, Myron (2003-12)
    This course is an introduction to principles of materials science and cell biology underlying the design of medical implants, artificial organs, and matrices for tissue engineering. Topics include methods for biomaterials ...
  • Irvine, Darrell J. (2003-06)
    Analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules ...
  • Yip, Sidney; Beers, Kenneth J.; Buehler, Markus J.; Hadjiconstantinou, Nicolas G (Nicholas George); Mirny, Leonid A.; Bazant, Martin Z.; Marzari, Nicola; Powell, Adam C.; Radovitzky, Raul A.; Rosales, Rodolfo; Ulm, F.-J. (Franz-Josef) (2006-06)
    Basic concepts of computer modeling in science and engineering using discrete particle systems and continuum fields. Techniques and software for statistical sampling, simulation, data analysis and visualization. Use of ...
  • Yip, Sidney; Powell, Adam C.; Bazant, Martin Z.; Carter, W. Craig; Marzari, Nicola; Rosales, Rodolfo; White, Jacob K.; Cao, Jianshu; Hadjiconstantinou, Nicolas G (Nicholas George); Mirny, Leonid A.; Trout, Bernhardt L.; Ulm, F.-J. (Franz-Josef) (2002-06)
    Basic concepts of computer modeling in science and engineering using discrete particle systems and continuum fields. Techniques and software for statistical sampling, simulation, data analysis and visualization. Use of ...
  • Yannas, Ioannis V.; Spector, Myron (2003-06)
    Solution of clinical problems by use of implants and other medical devices. Systematic use of cell-matrix control volumes. The role of stress analysis in the design process. Anatomic fit: shape and size of implants. Selection ...
  • Marzari, Nicola; Irvine, Darrell J.; Wuensch, Bernhardt J. (2003-12)
    This subject describes the fundamentals of bonding, energetics, and structure that underpin materials science. From electrons to silicon to DNA: the role of electronic bonding in determining the energy, structure, and ...
  • Mayes, Anne M.; Hobbs, L. W.; Stellacci, Francesco (2005-12)
    This course is a required sophomore subject in the Department of Materials Science and Engineering, designed to be taken in conjunction with the core lecture subject 3.012 Fundamentals of Materials Science and Engineering ...
  • Carter, W. Craig (2003-12)
    The class will cover mathematical techniques necessary for understanding of materials science and engineering topics such as energetics, materials structure and symmetry, materials response to applied fields, mechanics and ...
  • Buehler, Markus; Thonhauser, Timo; Radovitzky, Raúl (2008-06)
    This course explores the basic concepts of computer modeling and simulation in science and engineering. We'll use techniques and software for simulation, data analysis and visualization. Continuum, mesoscale, atomistic and ...
  • Buehler, Markus; Grossman, Jeffrey (2011-06)
    This subject provides an introduction to modeling and simulation (IM/S), covering continuum methods, atomistic and molecular simulation (e.g. molecular dynamics) as well as quantum mechanics. These tools play an increasingly ...
  • Kirchain, Randolph; Powell IV, Adam (2005-06)
    The goal of 3.044 is to teach cost-effective and sustainable production of solid material with a desired geometry, structure or distribution of structures, and production volume. Toward this end, it is organized around ...
  • Mayes, Anne M. (2004-06)
    Introduction to the interactions between cells and surfaces of biomaterials. Surface chemistry and physics of selected metals, polymers, and ceramics. Surface characterization methodology. Modification of biomaterials ...
  • Chiang, Yet-Ming; Roylance, David (2003-06)
    Student project teams design and fabricate a materials engineering prototype using appropriate processing technologies (injection molding, thermoforming, investment casting, powder processing, brazing, etc.). Emphasis on ...
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