1 / 22

Electric Fields in Material Space

Electric Fields in Material Space. 1. Figure 5.1 Current in a filament. Figure 5.2 (a) An isolated conductor under the influence of an applied field. (b) A conductor has zero electric field under static conditions.

hlakey
Télécharger la présentation

Electric Fields in Material Space

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Electric Fields in Material Space 1

  2. Figure 5.1 Current in a filament. Elements of Electromagnetics Fourth Edition Sadiku

  3. Figure 5.2 (a) An isolated conductor under the influence of an applied field. (b) A conductor has zero electric field under static conditions. Elements of Electromagnetics Fourth Edition Sadiku

  4. Figure 5.3 A conductor of uniform cross section under an applied E field. Elements of Electromagnetics Fourth Edition Sadiku

  5. Figure 5.4 Van de Graaff generator, for Example 5.2. Elements of Electromagnetics Fourth Edition Sadiku

  6. Figure 5.5 Cross section of the lead bar of Example 5.4. Elements of Electromagnetics Fourth Edition Sadiku

  7. Figure 5.6 Polarization of a nonpolar atom or molecule. Elements of Electromagnetics Fourth Edition Sadiku

  8. Figure 5.7 Polarization of a polar molecule: (a) permanent dipole (E=0), (b) alignment of permanent dipole (E¹0). Elements of Electromagnetics Fourth Edition Sadiku

  9. Figure 5.8 A block of dielectric material with dipole moment P per unit volume. Elements of Electromagnetics Fourth Edition Sadiku

  10. Figure 5.9 An electrometer; for Practice Exercise 5.8. Elements of Electromagnetics Fourth Edition Sadiku

  11. Figure 5.10 Dielectric–dielectric boundary: (a) determining E1t=E2t, (b) determining D1n=D2n. Elements of Electromagnetics Fourth Edition Sadiku

  12. Figure 5.11 Refraction of D or E at a dielectric–dielectric boundary. Elements of Electromagnetics Fourth Edition Sadiku

  13. Figure 5.12 Conductor–dielectric boundary. Elements of Electromagnetics Fourth Edition Sadiku

  14. Figure 5.13 Electrostatic screening. Elements of Electromagnetics Fourth Edition Sadiku

  15. Figure 5.14 Conductor–free space boundary. Elements of Electromagnetics Fourth Edition Sadiku

  16. Figure 5.15 For Example 5.9. Elements of Electromagnetics Fourth Edition Sadiku

  17. Figure 5.16 For Example 5.10. Elements of Electromagnetics Fourth Edition Sadiku

  18. Figure 5.17 For Review Question 5.8. Elements of Electromagnetics Fourth Edition Sadiku

  19. Figure 5.18 For Problems 5.10 and 5.19. Elements of Electromagnetics Fourth Edition Sadiku

  20. Figure 5.19 For Problem 5.32. Elements of Electromagnetics Fourth Edition Sadiku

  21. Figure 5.20 For Problem 5.34. Elements of Electromagnetics Fourth Edition Sadiku

  22. Figure 5.21 For Problem 5.35. Elements of Electromagnetics Fourth Edition Sadiku

More Related