1 / 23

PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 35:

PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 35: Comments and problem solving advice: Comment about PHY 712 final General review. Monday 4/28/2014. Wednesday 4/30/2014. Final exam for PHY 712 Available: Friday, May 2, 2014 Due: Monday, May 12, 2014.

lavi
Download Presentation

PHY 712 Electrodynamics 10-10:50 AM MWF Olin 107 Plan for Lecture 35:

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. PHY 712 Electrodynamics • 10-10:50 AM MWF Olin 107 • Plan for Lecture 35: • Comments and problem solving advice: • Comment about PHY 712 final • General review PHY 712 Spring 2014 -- Lecture 35

  2. PHY 712 Spring 2014 -- Lecture 35

  3. PHY 712 Spring 2014 -- Lecture 35

  4. Monday 4/28/2014 Wednesday 4/30/2014 PHY 712 Spring 2014 -- Lecture 35

  5. Final exam for PHY 712 • Available: Friday, May 2, 2014 • Due: Monday, May 12, 2014 PHY 712 Spring 2014 -- Lecture 35

  6. Maxwell’s equations PHY 712 Spring 2014 -- Lecture 35

  7. Maxwell’s equations PHY 712 Spring 2014 -- Lecture 35

  8. Maxwell’s equations PHY 712 Spring 2014 -- Lecture 35

  9. Energy and power (SI units) PHY 712 Spring 2014 -- Lecture 35

  10. PHY 712 Spring 2014 -- Lecture 35

  11. PHY 712 Spring 2014 -- Lecture 35

  12. PHY 712 Spring 2014 -- Lecture 35

  13. In your “bag” of tricks: • Direct (analytic or numerical) solution of differential equations • Solution by expanding in appropriate orthogonal functions • Green’s function techniques PHY 712 Spring 2014 -- Lecture 35

  14. How to choose most effective solution method -- • In general, Green’s functions methods work well when source is contained in a finite region of space PHY 712 Spring 2014 -- Lecture 35

  15. PHY 712 Spring 2014 -- Lecture 35

  16. Electromagnetic waves from time harmonic sources PHY 712 Spring 2014 -- Lecture 35

  17. Electromagnetic waves from time harmonic sources – continued: PHY 712 Spring 2014 -- Lecture 35

  18. Electromagnetic waves from time harmonic sources – continued: PHY 712 Spring 2014 -- Lecture 35

  19. Drude model Vibrations of charged particles near equilibrium: Model of dielectric properties of matter: dr http://img.tfd.com/ggse/d6/gsed_0001_0012_0_img2972.png PHY 712 Spring 2014 -- Lecture 35

  20. Drude model: • Vibration of particle of charge q and mass m near equilibrium: http://img.tfd.com/ggse/d6/gsed_0001_0012_0_img2972.png dr PHY 712 Spring 2014 -- Lecture 35

  21. Drude model dielectric function: PHY 712 Spring 2014 -- Lecture 35

  22. Kramers-Kronig transform – for use in dielectric analysis Im(z) =0 a Re(z) PHY 712 Spring 2014 -- Lecture 35

  23. Kramers-Kronig transform – for dielectric function: Further comments on analytic behavior of dielectric function PHY 712 Spring 2014 -- Lecture 35

More Related