Biological Engineering (20) - Archived
Biological Engineering [BE] was founded in 1998 as a new MIT departmental academic unit, with the mission of defining and establishing a new discipline fusing molecular life sciences with engineering. The goal of our biological engineering discipline, Course 20, is to advance fundamental understanding of how biological systems operate and to develop effective biology-based technologies for applications across a wide spectrum of societal needs including breakthroughs in diagnosis, treatment, and prevention of disease, in design of novel materials, devices, and processes, and in enhancing environmental health. The innovative educational programs created by BE reflect this emphasis on integrating molecular and cellular biosciences with a quantitative, systems-oriented engineering analysis and synthesis approach, offering opportunities at the undergraduate level for the SB degree in Biological Engineering, and at the graduate level for the Ph.D. in Biological Engineering (with emphasis in either Applied Biosciences or Bioengineering).
For more information, go to the Biological Engineering department site .
MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License .
20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 ?(2004-12)This course covers the following topics: conduction, diffusion, convection in electrolytes; fields in heterogeneous media; electrical double layers; Maxwell stress tensor and electrical forces in physiological systems; and ...
(2004-06)Mechanical forces play a decisive role during development of tissues and organs, during remodeling following injury as well as in normal function. A stress field influences cell function primarily through deformation of ...
(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 ...