University of New Mexico

 

Physics 406 Fall 2007

Electricity and Magnetism

 

 

University of New Mexico

Department of Physics and Astronomy

 

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General Information

Syllabus

Lecture Schedule

Problem Sets

 

General Information

 

Lecture: Tues and Thurs, Physics and Astronomy, Room 184, 12:30-13:45.

Problem Session: Wed., Physics and Astronomy, Room 184, 12:00-12:50.

 

Instructor: Prof. Ivan Deutsch

Phys/Astro Room 24, Phone: 277-1502

email: ideutsch@unm.edu

Office Hours: Mon. 11-12

 

Teaching Assistant: Alexandre Baron Tacla

email: tacla@unm.edu

Office Hours: Tues. 3:30-4:30

 

Text:

Other Recommended Texts:

Requirements:

 

Grading:

Problem Sets: 25%

There will be approximately 10 problem sets due Thursday in class.

Three Exams : 75%

Tentative Syllabus

I. Electrodynamics 

      A  Ohm's Law and Electromotive Force

      B  Faraday's Law, Inductance, and AC Circuits

      C  Maxwell's Equations

IIElectromagnetic Waves 

      A.  Plane Wave Propagation in Vacuum

      B.  Polarization

      C.  Energy and Momentum in Electromagnetic Waves

      D.  Waves in matter

          (i)  Wave propagation in dielectrics and conductors

          (ii)  Microscopic theory of dispersion (Oscillator and Drude models)

          (iii)  Propagation in dispersive media, group velocity, wave packets

      E. Boundary Conditions : Laws of Reflection and Refraction

III. Radiation - The Generation of Electromagnetic Waves

      A.  Potential Formulation of Electrodynamics:  Retarded-Time Potentials

      B.  Multipole expansions

      CElectric Dipole, and Magnetic Dipole Radiation

      DScattering

V. Relativistic Electrodynamics

      A.  Lorentz Transformations, Four-vectors

      B.  Magnetism as a relativistic phenomenon

      C.  Transformations of fields

      D.  The field tensor and invariants

 

Tentative Schedule of Lectures

Aug. 21

Class overview

Review of Physic 405: Statics
Aug. 23
Electric Currents, Ohm's Law, and EMF

Download 2
Aug. 28
Faraday's Law
Aug. 30
Inductance and Energy in Magnetic Fields

Download 4
Sept. 4
AC Circuits and Impedence

Download 5
Sept. 6
LC Circuit Oscillators

Download 6
Sept. 11
Displacement Current, Maxwell's Equations and Wave Equation
Sept. 13
Plane Wave Propagation I
Sept. 18
Plane Wave Propagation II
Sept. 20
Conservation of Energy and Poynting's Theorem
Sept. 25
Momentum and Angular Momentum in Plane Waves
Sept. 27
Exam I

 
Oct. 2

Maxwell's Equations in Matter

Waves in Dielectrics
Oct. 4
Boundary Conditions Reflection at Normal Incidence

Download 13
Oct. 9
Refraction and Reflection at Oblique Incidence

Continuation of 13
Oct. 11
Fall Break
  
Oct. 16

Waves in Conductors
Oct. 18
Models of Material Response

Download 15
Oct. 23

Fourier Analysis

Download 16
Oct. 25

Progation and Dispersion

Download 17
Oct. 30

Continuation

 
Nov. 1

Potential Formulations of Maxwell's Equations:

Gauge transformations
Nov. 6

Electric Dipole Radiation (I)
Nov. 8

Exam II

  
Nov. 13

Dipole Radiation (II)

Larmor Formula, Magnetic Dipole Radiation

Nov. 15

General Multipole Radiation
Continuation
Nov. 20

Introduction to Special Relativity

Download 21
Nov. 22
Thanksgiving
  
Nov. 27
Special Relativity: Relativisitic Mechanics
Nov. 29
Continuation

 
Dec. 4
Transformation of EM Fields - Space-time picture.
Dec. 6
Maxwell's Equations in Manefestly Covariant Form

 

 

Problem Sets

Problem Set #1

Problem Set #5

Problem Set #9

 Problem Set #2

 Problem Set #6

Problem Set #10

Problem Set #3

Problem Set #7

Problem Set #11

Problem Set #4

Problem Set #8