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### 전기자기학1

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2017년 2학기
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강의계획서 정전계 및 정자계에 대한 이해를 목표로 한다. 전계의 세기, 전속밀도, 전위 등의 기 본 성질을 가우스의 법칙, 발산의 법칙을 통하여 이해한다. 도체 및 절연체의 성질을 이해하고, 유전체, 정전용량을 도입한다. 전계계산을 라플라스 방정식 및 포아송 방정식을 이용하여 해석적으로, 또 수치해석적으로 구해 봄으로써 정전계에 대한 이해를 확실하게 한다. 끝으로, 비오-사바르 법칙을 소개하고 암페어의 법칙 및 스토크의 법 칙을 이용하여 정자계를 구하는 방법을 이해한다.

#### 차시별 강의      1. Course Description 1- Dimension & Units- Introduction of Electromagnetics- Scalars and Vectors- Vector Algebra Course Description 1- Dimension & Units- Introduction of Electromagnetics- Scalars and Vectors- Vector Algebra 을배운다 2. Course Description 2 - Dimension & Units- Introduction of Electromagnetics- Scalars and Vectors- Vector Algebra Course Description 2 - Dimension & Units- Introduction of Electromagnetics- Scalars and Vectors- Vector Algebra 을배운다 3. Rectangular Coordinate System 1- Vector Components and Unit Vectors- Vector Field- Dot and Cross Product- Circular Cylindrical Coordinates System- The Spherical Coordinate System Rectangular Coordinate System 1- Vector Components and Unit Vectors- Vector Field- Dot and Cross Product- Circular Cylindrical Coordinates System- The Spherical Coordinate System을 배운다 4. Rectangular Coordinate System 2- Vector Components and Unit Vectors- Vector Field- Dot and Cross Product- Circular Cylindrical Coordinates System- The Spherical Coordinate System Rectangular Coordinate System 2- Vector Components and Unit Vectors- Vector Field- Dot and Cross Product- Circular Cylindrical Coordinates System- The Spherical Coordinate System을 배운다 5. Experimental Law of Coulomb 1- Electric Field Intensity- Field Arising from a Continuous Volume Charge Distribution Experimental Law of Coulomb 1- Electric Field Intensity- Field Arising from a Continuous Volume Charge Distribution 을 배운다 6. Experimental Law of Coulomb 2- Electric Field Intensity- Field Arising from a Continuous Volume Charge Distribution Experimental Law of Coulomb 2- Electric Field Intensity- Field Arising from a Continuous Volume Charge Distribution 을 배운다 7. Electric Field of a Line Charge 1- Electric Field of a Sheet of Charge- Streamlines and Sketches of Electric Fields Electric Field of a Line Charge 1- Electric Field of a Sheet of Charge- Streamlines and Sketches of Electric Fields을 배운다 8. Electric Field of a Line Charge 2- Electric Field of a Sheet of Charge- Streamlines and Sketches of Electric Fields Electric Field of a Line Charge 2- Electric Field of a Sheet of Charge- Streamlines and Sketches of Electric Fields을 배운다 9. Electric Flux Density 1- Gauss’s Law- Application of Gauss’s Law: Some Symmetrical Charge Distributions Electric Flux Density 1- Gauss’s Law- Application of Gauss’s Law: Some Symmetrical Charge Distributions를 배운다 10. Electric Flux Density 2- Gauss’s Law- Application of Gauss’s Law: Some Symmetrical Charge Distributions Electric Flux Density 2- Gauss’s Law- Application of Gauss’s Law: Some Symmetrical Charge Distributions를 배운다 11. Application of Gauss’s Law: Differential Volume Element 1- Divergence and Maxwell’s First Equation- Vector Operator ∇ and the Divergence Theorem Application of Gauss’s Law: Differential Volume Element 1- Divergence and Maxwell’s First Equation- Vector Operator ∇ and the Divergence Theorem을 배운다 12. Application of Gauss’s Law: Differential Volume Element 2- Divergence and Maxwell’s First Equation- Vector Operator ∇ and the Divergence Theorem Application of Gauss’s Law: Differential Volume Element 2- Divergence and Maxwell’s First Equation- Vector Operator ∇ and the Divergence Theorem을 배운다 13. Energy Expended in Moving a Point Charge in an Electric Field- Line Integral- Definition of Potential Difference and Potential- Potential Field of a Point Charge Energy Expended in Moving a Point Charge in an Electric Field- Line Integral- Definition of Potential Difference and Potential- Potential Field of a Point Charge를 배운다 14. Potential Field of a System of Charges: Conservative Property- Potential Gradient- Electric Dipole- Energy Density in the Electrostatic Field Potential Field of a System of Charges: Conservative Property- Potential Gradient- Electric Dipole- Energy Density in the Electrostatic Field를 배운다 15. Current and Current Density- Continuity of Current- Metallic Conductors- Conductor Properties and Boundary Conditions Current and Current Density- Continuity of Current- Metallic Conductors- Conductor Properties and Boundary Conditions를 배운다  Method of Images - Semiconductors- Nature of Dielectric Materials- Boundary Conditions for Perfect Dielectric Materials Method of Images - Semiconductors- Nature of Dielectric Materials- Boundary Conditions for Perfect Dielectric Materials를 배운다  Capacitance Defined- Parallel-Plate Capacitor- Several Capacitance Examples- Capacitance of a Two-Wire Line Capacitance Defined- Parallel-Plate Capacitor- Several Capacitance Examples- Capacitance of a Two-Wire Line을 배운다  Using Field Sketches to Estimate Capacitance in Two-Dimensional Problems- Poisson’s and Laplace’s Equations- Examples of the Solution of Laplace’s Equation- Example of the Solution of Poisson’s Equation: the p-n Junction Capacitance Using Field Sketches to Estimate Capacitance in Two-Dimensional Problems- Poisson’s and Laplace’s Equations- Examples of the Solution of Laplace’s Equation- Example of the Solution of Poisson’s Equation: the p-n Junction Capacitance를 배운다  Biot-Savart Law 1- Amp`ere’s Circuital Law- Curl- Stokes’ Theorem Biot-Savart Law 1- Amp`ere’s Circuital Law- Curl- Stokes’ Theorem를 배운다  Biot-Savart Law 2- Amp`ere’s Circuital Law- Curl- Stokes’ Theorem Biot-Savart Law 2- Amp`ere’s Circuital Law- Curl- Stokes’ Theorem를 배운다  Magnetic Flux and Magnetic Flux Density 1- Scalar and Vector Magnetic Potentials- Derivation of the Steady-Magnetic-Field Laws Magnetic Flux and Magnetic Flux Density 1- Scalar and Vector Magnetic Potentials- Derivation of the Steady-Magnetic-Field Laws를 배운다  Magnetic Flux and Magnetic Flux Density 2- Scalar and Vector Magnetic Potentials- Derivation of the Steady-Magnetic-Field Laws Magnetic Flux and Magnetic Flux Density 2- Scalar and Vector Magnetic Potentials- Derivation of the Steady-Magnetic-Field Laws를 배운다 #### 연관 자료 #### 사용자 의견 #### 이용방법

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