Course Syllabus
Lecture notes
Part 0: Mathematical Preperation
Lecture 1 : Vector algebra
Lecture 2 : Fundamental theorems of vector calculus
Lecture 3 : Delta function & others
Part I: Electrostatics
Lecture 1 : Electromagnetism -- an overview
Lecture 2 : Electrostatics -- charges
Lecture 3 : Electrostatics -- guass's law
Lecture 4 : Electrostatics -- electric potential
Lecture 5 : Electrostatics -- conductor
Part II: Electromagnetic field of moving charge
Lecture 6 : Relativity -- An electromagnetic way to derive basic relativistic transformations
Lecture 7 : Relativity -- special relativity 1
Lecture 8 : Relativity -- special relativity 2
Lecture 9 : Electric field of moving charges
Lecture 10 : Magnetic fields 1
Lecture 11 : Magnetic fields 2
Lecture 12 : Transformations of BM fields
Part III: Maxwell equations and beyond
Lecture 13 : Induction
Lecture 14 : Displacement current
Lecture 15 : Magnetic monopole
Lecture 16 : Conservation law 1
Lecture 17 : Conservation law 2
Part IV: Application of E&M theory
Lecture 18 : AC circuit 1
Lecture 19 : AC circuit 2
Lecture 20 : Dielectrics 1
Lecture 21 : Dielectrics 2
Lecture 22 : Magnetic field in matter
Lecture 23 : Magnetic field in matter 2
Homework assignment
HW1 : Due on Feb 20, 2023
HW2 : Due on Mar 1st, 2023
HW3 : Due on Mar 13, 2023
HW4 : Due on Mar 20, 2023
HW5 : Due on Mar 27, 2023
HW6 : Due on Apr 3, 2023
HW7 : Due on Apr 20, 2023
HW8 : Due on Apr 26, 2023
HW9 : Due on May 10, 2023
HW10 : Due on May 22, 2023
HW11 : Due on June 5, 2023
Lecture notes
Part 0: Mathematical Preperation
Lecture 1 : Vector algebra
Lecture 2 : Fundamental theorems of vector calculus
Lecture 3 : Delta function & others
Part I: Electrostatics
Lecture 1 : Electromagnetism -- an overview
Lecture 2 : Electrostatics -- charges
Lecture 3 : Electrostatics -- guass's law
Lecture 4 : Electrostatics -- electric potential
Lecture 5 : Electrostatics -- conductor
Part II: Electromagnetic field of moving charge
Lecture 6 : Relativity -- An electromagnetic way to derive basic relativistic transformations
Lecture 7 : Relativity -- special relativity 1
Lecture 8 : Relativity -- special relativity 2
Lecture 9 : Electric field of moving charges
Lecture 10 : Magnetic fields 1
Lecture 11 : Magnetic fields 2
Lecture 12 : Transformations of BM fields
Part III: Maxwell equations and beyond
Lecture 13 : Induction
Lecture 14 : Displacement current
Lecture 15 : Magnetic monopole
Lecture 16 : Conservation law 1
Lecture 17 : Conservation law 2
Part IV: Application of E&M theory
Lecture 18 : AC circuit 1
Lecture 19 : AC circuit 2
Lecture 20 : Dielectrics 1
Lecture 21 : Dielectrics 2
Lecture 22 : Magnetic field in matter
Lecture 23 : Magnetic field in matter 2
Homework assignment
HW1 : Due on Feb 20, 2023
HW2 : Due on Mar 1st, 2023
HW3 : Due on Mar 13, 2023
HW4 : Due on Mar 20, 2023
HW5 : Due on Mar 27, 2023
HW6 : Due on Apr 3, 2023
HW7 : Due on Apr 20, 2023
HW8 : Due on Apr 26, 2023
HW9 : Due on May 10, 2023
HW10 : Due on May 22, 2023
HW11 : Due on June 5, 2023
Part 0: Mathematical Preperation
Part I: Electrostatics
Part II: Electromagnetic field of moving charge
Part III: Maxwell equations and beyond
Part IV: Application of E&M theory
Homework assignment
HW1 : Due on Feb 20, 2023
HW2 : Due on Mar 1st, 2023
HW3 : Due on Mar 13, 2023
HW4 : Due on Mar 20, 2023
HW5 : Due on Mar 27, 2023
HW6 : Due on Apr 3, 2023
HW7 : Due on Apr 20, 2023
HW8 : Due on Apr 26, 2023
HW9 : Due on May 10, 2023
HW10 : Due on May 22, 2023
HW11 : Due on June 5, 2023
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Last modified: Feb 23, 2023.