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### 전자기학I

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공학 >전기ㆍ전자 >전자공학
• 강의학기
2014년 1학기
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Electromagnetism deals with the theory on the electric and the magnetic phenomena which occur in nature. In this course, we also aims to let the physics students be familiarized with the description of field in the three dimensional space. Starting from the basic discipline on the vector analysis, this course covers the topics of electrostatics, electric potentials, electric fields in matter, magnetostatics and magnetic fields in matter.
 1. Vector Analysis1 Vector Analysis2 2. Vector Analysis2 Vector Analysis3 Vector Analysis2 Vector Analysis3 3. Electrostatics1 Electrostatics2 Dirac Delta Function Dirac Delta Function 4. Dirac Delta Function Dirac Delta Function 5. Chapter 2. Electric Field Chapter 3. Electric Field The potential of a localized charge distribution The potential of a localized charge distribution 6. The energy of a continuous charge distribution The energy of a continuous charge distribution Chapter 3. Potentials Chapter 4. Potentials 7. Force and energy Force and energy 8. Multipole Expension Multipole Expension Multipole Expension (2) Multipole Expension (3) 9. The field of a polarized object The field of a polarized object 10. The electric displacement The electric displacement Boundary value problem with linear dielectrics Boundary value problem with linear dielectrics 11. Magneto statistic Magneto statistic The Biot-Savart Law The Biot-Savart Law 12. Ampere's Law Ampere's Law Vector Potential Vector Potential 13. Vector potential due to the magnetic dipole Vector potential due to the magnetic dipole 14. The auxiliary field H The auxiliary field H
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