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Materials Science and Engineering (3) - Archived

Research and Teaching Output of the MIT Community

Materials Science and Engineering (3) - Archived

 

The Department of Materials Science and Engineering traces its history back to the founding of MIT in 1865. Over these years, its central function has been the education of students by providing them with the opportunity to conduct independent and creative research at the forefront of materials science and engineering. Today the Department is the largest of its kind in the United States, and it is clearly the leader in many areas of materials education and research. The Department shares in creating the tradition of excellence for which MIT is known.

The Department's strong record of achievement is solidly based on its continuing record of pioneering advances in engineering sciences and technologies, its ability to relate new developments and advances to engineering practice, its success in incorporating these advances into teaching and research programs, and its close relationship with industry.

In advancing the frontiers of knowledge, the Department draws upon faculty and students with many diverse backgrounds. There are few fields of science or engineering that are not concerned in some way with materials. Indeed, the need for materials is as pervasive in our lives as is the need for energy. It has been estimated that the work of one in three engineers is directly related to materials, while over half of all engineers have at least an indirect concern for the properties of materials.

For more information, go to http://dmse.mit.edu/

Recent Submissions

  • Rines, Robert H. (2003-12)
    Engineering School-Wide Elective Subject. Description given at end of this chapter in SWE section. Description from course home page: This course explores current research concerning patent law and its role in the rapidly ...
  • 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 ...
  • 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 ...
  • 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 ...
  • Kimerling, Lionel C. (2004-06)
    Optical and optoelectronic properties of semiconductors, ceramics, and polymers. Electronic structure, refractive index, electroluminescence, electro-optic and magneto-optic effects, and laser phenomena. Microphotonic ...
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