Location: Academic Organisations » OpenCourseWare Consortium » MIT OpenCourseWare » MIT 6.013 / ESD.013J Electromagnetics and Applications - Fall 2005

Chapter 7: Conduction and electroquasistatic charge relaxation

author: Markus Zahn, Center for Future Civic Media, Massachusetts Institute of Technology, MIT
recorded by: Massachusetts Institute of Technology, MIT
published: Oct. 10, 2008,   recorded: September 2005,   views: 3658
released under terms of: Creative Commons Attribution Non-Commercial Share Alike (CC-BY-NC-SA)

See Also:

Download article icon Download article: conduction_and_electroquasistatic_charge_relaxation.pdf (1.1 MB)

Download Video - generic video source Download mit6013f05_zahn_chapter07_01.m4v (Video - generic video source 60.8 MB)

Download Video - generic video source Download mit6013f05_zahn_chapter07_01.rm (Video - generic video source 3.5 MB)

Download Video Download mit6013f05_zahn_chapter07_01.flv (Video 14.5 MB)

Download Video Download mit6013f05_zahn_chapter07_01_320x240_h264.mp4 (Video 6.6 MB)

Download Video Download mit6013f05_zahn_chapter07_01.wmv (Video 40.9 MB)

Help icon Streaming Video Help

Related content

Report a problem or upload files

If you have found a problem with this lecture or would like to send us extra material, articles, exercises, etc., please use our ticket system to describe your request and upload the data.
Enter your e-mail into the 'Cc' field, and we will keep you updated with your request's status.
Lecture popularity: You need to login to cast your vote.
  Delicious Bibliography

 Watch videos:   (click on thumbnail to launch)

Watch Part 1
Part 1: 7.5.1: Distribution of unpaired charge (Courtesy of Education Development Center, Inc. Used with permission.) 02:13
!NOW PLAYING
Watch Part 2
Part 2: 7.5.2: Rotation of an insulating rod in a steady current (Courtesy of Education Development Center, Inc. Used with permission.) 04:45
!NOW PLAYING
Watch Part 3
Part 3: 7.7.1: Relaxation of charge on particle in Ohmic conductor (Courtesy of Education Development Center, Inc. Used with permission.) Supplement: Van de Graaff and Kelvin generators (Courtesy of Education 09:57
!NOW PLAYING
Watch Part 4
Part 4: 7.7.2: Electrostatic precipitation 06:05
!NOW PLAYING
Watch Part 5
Part 5: 7.7.1 Supplement: Van de Graaff and Kelvin generators (Courtesy of Education Development Center, Inc. Used with permission.) 07:17
!NOW PLAYING

Description

7.0 Introduction

7.1 Conduction constitutive laws

  • Ohmic conduction
  • Unipolar conduction

7.2 Steady Ohmic conduction

  • Continuity conditions
  • Conductance
  • Qualitative view of fields in conductors

7.3 Distributed current sources and associated fields

  • Distributed current source singularities
  • Fields associated with current source singularities
  • Method of images

7.4 Superposition and uniqueness of steady conduction solutions

  • Superposition to satisfy boundary conditions
  • The conductance matrix
  • Uniqueness

7.5 Steady currents in piece-wise uniform conductors

  • Analogy to fields in linear dielectrics
  • Inside-outside approximations

7.6 Conduction analogs

  • Mapping fields that satisfy Laplace's equation

7.7 Charge relaxation in uniform conductors

  • Net charge on bodies immersed in uniform materials

7.8 Electroquasistatic conduction laws for inhomogeneous material

  • Evolution of unpaired charge density
  • Electroquasistatic potential distribution
  • Uniqueness

7.9 Charge relaxation in uniform and piece-wise uniform systems

  • Fields in regions having uniform properties
  • Continuity conditions in piece-wise uniform systems
  • Nonuniform fields in piece-wise uniform systems

7.10 Summary

Link this page

Would you like to put a link to this lecture on your homepage?
Go ahead! Copy the HTML snippet !

Write your own review or comment:

make sure you have javascript enabled or clear this field: