20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004
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 fluid and solid continua: equations of motion useful for porous, hydrated bio...
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| Format: | Learning Object |
| Language: | en-US |
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2004
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| Online Access: | http://hdl.handle.net/1721.1/103790 |
| _version_ | 1826192071034142720 |
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| author | Lauffenburger, Douglas Grodzinsky, Alan |
| author2 | Massachusetts Institute of Technology. Department of Biological Engineering |
| author_facet | Massachusetts Institute of Technology. Department of Biological Engineering Lauffenburger, Douglas Grodzinsky, Alan |
| author_sort | Lauffenburger, Douglas |
| collection | MIT |
| description | 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 fluid and solid continua: equations of motion useful for porous, hydrated biological tissues. Case studies considered include membrane transport; electrode interfaces; electrical, mechanical, and chemical transduction in tissues; electrophoretic and electroosmotic flows; diffusion/reaction; and ECG. The course also examines electromechanical and physicochemical interactions in biomaterials and cells; orthopaedic, cardiovascular, and other clinical examples. |
| first_indexed | 2024-09-23T09:05:50Z |
| format | Learning Object |
| id | mit-1721.1/103790 |
| institution | Massachusetts Institute of Technology |
| language | en-US |
| last_indexed | 2025-03-10T07:41:14Z |
| publishDate | 2004 |
| record_format | dspace |
| spelling | mit-1721.1/1037902025-02-26T20:27:38Z 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 Fields, Forces, and Flows in Biological Systems (BE.430J) Lauffenburger, Douglas Grodzinsky, Alan Massachusetts Institute of Technology. Department of Biological Engineering Massachusetts Institute of Technology. Department of Chemical Engineering Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science Harvard University--MIT Division of Health Sciences and Technology Massachusetts Institute of Technology. Department of Mechanical Engineering biomaterials conduction diffusion convection in electrolytes fields in heterogeneous media electrical double layers Maxwell stress tensor fluid and solid continua biological tissues membrane transport electrode transduction electrophoretic flow electroosmotic flow diffusion reaction ECG orthopaedic, cardiovascular 20.430J 20.430 2.795J 2.795 6.561J 6.561 10.539J 10.539 HST.544J HST.544 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 fluid and solid continua: equations of motion useful for porous, hydrated biological tissues. Case studies considered include membrane transport; electrode interfaces; electrical, mechanical, and chemical transduction in tissues; electrophoretic and electroosmotic flows; diffusion/reaction; and ECG. The course also examines electromechanical and physicochemical interactions in biomaterials and cells; orthopaedic, cardiovascular, and other clinical examples. 2004-12 Learning Object 20.430J-Fall2004 local: 20.430J local: 2.795J local: 6.561J local: 10.539J local: HST.544J local: IMSCP-MD5-87c801f8c5256154d268e74a35b0fe0c http://hdl.handle.net/1721.1/103790 en-US Usage Restrictions: This site (c) Massachusetts Institute of Technology 2016. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license") unless otherwise noted. The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions. Usage Restrictions: Attribution-NonCommercial-ShareAlike 3.0 Unported http://creativecommons.org/licenses/by-nc-sa/3.0/ text/html Fall 2004 |
| spellingShingle | biomaterials conduction diffusion convection in electrolytes fields in heterogeneous media electrical double layers Maxwell stress tensor fluid and solid continua biological tissues membrane transport electrode transduction electrophoretic flow electroosmotic flow diffusion reaction ECG orthopaedic, cardiovascular 20.430J 20.430 2.795J 2.795 6.561J 6.561 10.539J 10.539 HST.544J HST.544 Lauffenburger, Douglas Grodzinsky, Alan 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title | 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title_full | 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title_fullStr | 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title_full_unstemmed | 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title_short | 20.430J / 2.795J / 6.561J / 10.539J / HST.544J Fields, Forces, and Flows in Biological Systems (BE.430J), Fall 2004 |
| title_sort | 20 430j 2 795j 6 561j 10 539j hst 544j fields forces and flows in biological systems be 430j fall 2004 |
| topic | biomaterials conduction diffusion convection in electrolytes fields in heterogeneous media electrical double layers Maxwell stress tensor fluid and solid continua biological tissues membrane transport electrode transduction electrophoretic flow electroosmotic flow diffusion reaction ECG orthopaedic, cardiovascular 20.430J 20.430 2.795J 2.795 6.561J 6.561 10.539J 10.539 HST.544J HST.544 |
| url | http://hdl.handle.net/1721.1/103790 |
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