瀏覽人數

 

 

INTRODUCTION TO ELECTRODYNAMICS

 

Fourth Edition  David J. Griffiths  Reed College

 

Presenter :

Prof. Tsun-Hsu Chang (張存續 教授) 035742978

Teaching Assistants :

Hung-Chun Hsu (許弘竣), Yi-Wen Lin (林怡雯), Tien-Fu Yang (楊添福)

 

   

FALL SEMESTER

  • Previous exam

97 fall midterm I.pdf

97 fall midterm II.pdf

97 fall final.pdf

  Syllabus + Introduction EMfall.pdf

  • Exercises and solutions

EM01_exercises.pdf

EM02_exercises.pdf

  Chap.1 Vector Analysis

1.1       Vector Algebra

1.2       Differential Calculus

1.3       Integral Calculus

1.4       Curvilinear Coordinates

1.5       The Dirac Delta Function

1.6       The Theory of Vector Fields

EM01.pdf

 

Link 1.2 (part I), Link 1.2 (part II)

Link 1.3 (part I), Link 1.3 (part II)

Link 1.4

Link 1.5&Link 1.6

   Chap. 2 Electrostatics

2.1       The Electric Field

2.2       Divergence and Curl of Electrostatic Fields

2.3       Electric Potential

2.4       Work and Energy in Electrostatics

2.5       Conductors

EM02.pdf

Link 2.1

Link 2.2 (part I), Link 2.2 (part II)

Link 2.3 (part I), Link 2.3 (part II)

Link 2.4

Link 2.5

   Chap.3 Special Techniques

3.1       Laplace’s Equation

3.2       The Method of Images

3.3       Separation of Variables

3.4       Multipole Expansion

EM03.pdf

Link 3.1

Link 3.2

Link 3.3

Link 3.4

   Chap. 4 Electric Field in Matters

4.1       Polarization

4.2       The Field of a Polarized Object

4.3       The Electric Displacement

4.4       Linear Dielectrics

EM04.pdf

Link 4.1

Link 4.2

Link 4.3

Link 4.4

  Chap. 5 Magnetostatics

5.1       The Lorentz Force Law

5.2       The Biot-Savart Law

5.3       The Divergence and Curl of B

5.4       Magnetic Vector Potential

EM05.pdf

Link 5.1

Link 5.2

Link 5.3

Link 5.4

   Chap. 6 Magnetic Field in Matters 

6.1       Magnetization

6.2       The Field of a Magnetized Object

6.3       The Auxiliary Field H

6.4       Linear and Nonlinear Media

EM06.pdf

Link 6.1

Link 6.2

Link 6.3

Link 6.4

   Chap. 7 Electrodynamics (Part I)

7.1       Electromotive Force

EM07P1.pdf

Link 7.1

   Supplement

Link 1.1, Link 1.2, Link 1.3, Link 1.4

 

SPRING SEMESTER

 

  • Previous exam

97 spring midterm.pdf

97 sping final.pdf

  Syllabus + Introduction EMspring.pdf

  Chap.7 Electrodynamics (Part II)

7.2       Electromagnetic Induction

7.3       Maxwell’s Equations

EM07P2.pdf

Link 7.2

Link 7.3

  Chap. 8 Conservation Laws

8.1       Charge and Energy

8.2       Momentum

8.3       Magnetic Forces Do No Work

EM08.pdf

Link 8.1

Link 8.2

Link 8.3

  Chap.9 Electromagnetic Waves

9.1       Waves in One Dimension

9.2       Electromagnetic Waves in Vacuum

9.3      Electromagnetic Waves in Matter

9.4      Absorption and Dispersion

9.5       Guided Waves

M09.pdf

Link 9.1

Link 9.2

Link 9.3

Link 9.4

Link 9.5

  Chap. 10 Potentials and Fields

10.1       The Potential Formulation

10.2       Continuous Distributions

10.3       Point Charges

EM10.pdf

Link 10.1

Link 10.2

Link 10.3

  Chap. 11 Radiation

11.1      Dipole Radiation

11.2       Point Charges

EM11.pdf

Link 11.1

Link 11.2

  Chap. 12 Electrodynamics and Relativity 

12.1       The Special Theory of Relativity

12.2       Relativistic Mechanics

12.3       Relativistic Electrodynamics

 

EM12.pdf

Link 12.1

Link 12.2

Link 12.3