| 定價: | ¥ 69 | ||
| 作者: | (美)古魯 等著 | ||
| 出版: | 機械工業出版社 | ||
| 書號: | 9787111158318 | ||
| 語言: | 英文原版 | ||
| 日期: | 2005-01-01 | ||
| 版次: | 1 | 頁數: | 681 |
| 開本: | 16開 | 查看: | 0次 |
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 | 400-711-6699 | 滿29至69元,免運費! | ¥55.2 |  |
內容推薦
本書簡明易懂,貼近讀者,深受廣大師生歡迎。
本書包含許多實例、問題、章末小結和適當的背景材料。書中首先介紹靜電磁場和靜磁場的基本概念,繼而講解麥克斯韋爾方程、電磁傳播、電磁傳輸和電磁輻射。另外,還增加了關于有限元法和有限差分法的章節以及關于史密斯圓圖的詳細附錄。
作者簡介
BHAG SINGH GURU 凱特靈大學電子與計算機工程系教授、IEEE會員,發表過30多篇關于旋轉電機和電磁場的論文,并與他人合寫過兩本著作。
HUSEYIN R·HIZIROGLU 凱特靈大學電子與計算機工程系教授、IEEE高級會員,受到多項聯合國發展計劃資助,在IEEE討論會和學報上發表。
目錄
1 ELECTROMAGNETIC FIELD THEORY
1.1 Introduction
1.2 Field Concept
1.3 Vector Analysis
1.4 Differential and Integral Formulations
1.5 Static Fields
1.6 Time-Varying Fields
1.7 Applications of Time-Varying Fields
1.8 Numerical Solutions
1.9 Further Study
2 VECTOR ANALYSIS
2.1 Introduction
2.2 Scalar and Vector Quantities
2.3 Vector Operations
2.4 The Coordinate Systems
2.5 Scalar and Vector Fields
2.6 Differential Elements of Length, Surface, and Volume
2.7 Line, Surface, and Volume Integrals
2.8 The Gradient of a Scalar Function
2.9 Divergence of a Vector Field
2.10 The Curl of a Vector Field
2.11 The Laplacian Operator
2.12 Some Theorems and Field Classifications
2.13 Vector Identities
2.14 Summary
2.15 Review Questions
2.16 Problems
3 ELECTROSTATICS
3.1 Introduction
3.2 Coulomb’s Law
3.3 Electric Field Intensity
3.4 Electric Flux and Electric Flux Density
3.5 The EIectric Potential
3.6 Electric Dipole
3.7 Materials in an Electric Field
3.8 Energy Stored in an EIectric Field
3.9 Boundary Conditions
3.10 Capacitor and Capacitance
3.11 Poisson’s and Laplace’s Equations
3.12 Method of Images
3.13 Summary
3.14 Review Questions
3.15 Problems
4 STEADY ELECTRIC CURRENTS
4.1 Introduction
4.2 Nature of Current and Current Density
4.3 Resistance of a Conductor
4.4 The Equation Of Continuity
4.S Relaxation Time
4.6 Joule’s Law
4.7 Steady Current in a Diode
4.8 Boundary Conditions for Current Density
4.9 Analogy Between D and J
4.10 The Electromotive Force
4.11 Summary
4.12 Review Questions
4.13 Problems
1 ELECTROMAGNETIC FIELD THEORY
1.1 Introduction
1.2 Field Concept
1.3 Vector Analysis
1.4 Differential and Integral Formulations
1.5 Static Fields
1.6 Time-Varying Fields
1.7 Applications of Time-Varying Fields
1.8 Numerical Solutions
1.9 Further Study
2 VECTOR ANALYSIS
2.1 Introduction
2.2 Scalar and Vector Quantities
2.3 Vector Operations
2.3.1 Vector Addition
2.3.2 Vector Subtraction
2.3.3 Multiplication of a Vector by a Scalar
2.3.4 Product of Two Vectors
2.4 The Coordinate Systems
2.4.1 Rectangular Coordinate System
2.4.2 Cylindrical Coordinate System
2.4.3 Spherical Coordinate System
2.5 Scalar and Vector Fields
2.6 Differential Elements of Length, Surface, and Volume
2.7 Line, Surface, and Volume Integrals
2.8 The Gradient of a Scalar Function
2.9 Divergence of a Vector Field
2.10 The Curl of a Vector Field
2.11 The Laplacian Operator
2.12 Some Theorems and Field Classifications
2.13 Vector Identities
2.14 Summary
2.15 Review Questions
2.16 Problems
3 ELECTROSTATICS
3.1 Introduction
3.2 Coulomb’s Law
3.3 Electric Field Intensity
3.3.1 Electric Field Intensity Due to Charge Distributions
3.4 Electric Flux and Electric Flux Density
3.4.1 Definition of Electric Flux
3.4.2 Gauss’s Law
3.5 The EIectric Potential
3.6 Electric Dipole
3.7 Materials in an Electric Field
3.8 Energy Stored in an EIectric Field
3.9 Boundary Conditions
3.10 Capacitor and Capacitance
3.11 Poisson’s and Laplace’s Equations
3.12 Method of Images
3.13 Summary
3.14 Review Questions
3.15 Problems
4 STEADY ELECTRIC CURRENTS
4.1 Introduction
4.2 Nature of Current and Current Density
4.3 Resistance of a Conductor
4.4 The Equation Of Continuity
4.S Relaxation Time
4.6 Joule’s Law
4.7 Steady Current in a Diode
4.8 Boundary Conditions for Current Density
4.9 Analogy Between D and J
4.10 The Electromotive Force
4.11 Summary
4.12 Review Questions
4.13 Problems
5 MAGNETOSTATICS
6 APPLICATIONS OF STATIC FIELDS
7 TIME-VARYING ELECTROMAGNETIC FIELDS
8 PLANE WAVE PROPAGATION
9 TRANSMISSION LINES
10 WAVEGUIDES AND CAVITY RESONATORS
11 ANTENNAS
12 COMPUTER-AIDED ANALYSIS OF ELECTROMAGNETIC FIELDS
APPENDIX A SMITH CHART AND ITS APPLICATIONS
APPENDIX B COMPUTER PROGRAMS FOR VARIOUS PROBLEMS
APPENDIX C USEFUL MATHEMATICAL TABLES
INDEX
1 ELECTROMAGNETIC FIELD THEORY
1.1 Introduction
1.2 Field Concept
1.3 Vector Analysis
1.4 Differential and Integral Formulations
1.5 Static Fields
1.6 Time-Varying Fields
1.7 Applications of Time-Varying Fields
1.8 Numerical Solutions
1.9 Further Study
2 VECTOR ANALYSIS
2.1 Introduction
2.2 Scalar and Vector Quantities
2.3 Vector Operations
2.4 The Coordinate Systems
2.5 Scalar and Vector Fields
2.6 Differential Elements of Length, Surface, and Volume
2.7 Line, Surface, and Volume Integrals
2.8 The Gradient of a Scalar Function
2.9 Divergence of a Vector Field
2.10 The Curl of a Vector Field
2.11 The Laplacian Operator
2.12 Some Theorems and Field Classifications
2.13 Vector Identities
2.14 Summary
2.15 Review Questions
2.16 Problems
3 ELECTROSTATICS
3.1 Introduction
3.2 Coulomb’s Law
3.3 Electric Field Intensity
3.4 Electric Flux and Electric Flux Density
3.5 The EIectric Potential
3.6 Electric Dipole
3.7 Materials in an Electric Field
3.8 Energy Stored in an EIectric Field
3.9 Boundary Conditions
3.10 Capacitor and Capacitance
3.11 Poisson’s and Laplace’s Equations
3.12 Method of Images
3.13 Summary
3.14 Review Questions
3.15 Problems
4 STEADY ELECTRIC CURRENTS
4.1 Introduction
4.2 Nature of Current and Current Density
4.3 Resistance of a Conductor
4.4 The Equation Of Continuity
4.S Relaxation Time
4.6 Joule’s Law
4.7 Steady Current in a Diode
4.8 Boundary Conditions for Current Density
4.9 Analogy Between D and J
4.10 The Electromotive Force
4.11 Summary
4.12 Review Questions
4.13 Problems
1 ELECTROMAGNETIC FIELD THEORY
1.1 Introduction
1.2 Field Concept
1.3 Vector Analysis
1.4 Differential and Integral Formulations
1.5 Static Fields
1.6 Time-Varying Fields
1.7 Applications of Time-Varying Fields
1.8 Numerical Solutions
1.9 Further Study
2 VECTOR ANALYSIS
2.1 Introduction
2.2 Scalar and Vector Quantities
2.3 Vector Operations
2.3.1 Vector Addition
2.3.2 Vector Subtraction
2.3.3 Multiplication of a Vector by a Scalar
2.3.4 Product of Two Vectors
2.4 The Coordinate Systems
2.4.1 Rectangular Coordinate System
2.4.2 Cylindrical Coordinate System
2.4.3 Spherical Coordinate System
2.5 Scalar and Vector Fields
2.6 Differential Elements of Length, Surface, and Volume
2.7 Line, Surface, and Volume Integrals
2.8 The Gradient of a Scalar Function
2.9 Divergence of a Vector Field
2.10 The Curl of a Vector Field
2.11 The Laplacian Operator
2.12 Some Theorems and Field Classifications
2.13 Vector Identities
2.14 Summary
2.15 Review Questions
2.16 Problems
3 ELECTROSTATICS
3.1 Introduction
3.2 Coulomb’s Law
3.3 Electric Field Intensity
3.3.1 Electric Field Intensity Due to Charge Distributions
3.4 Electric Flux and Electric Flux Density
3.4.1 Definition of Electric Flux
3.4.2 Gauss’s Law
3.5 The EIectric Potential
3.6 Electric Dipole
3.7 Materials in an Electric Field
3.8 Energy Stored in an EIectric Field
3.9 Boundary Conditions
3.10 Capacitor and Capacitance
3.11 Poisson’s and Laplace’s Equations
3.12 Method of Images
3.13 Summary
3.14 Review Questions
3.15 Problems
4 STEADY ELECTRIC CURRENTS
4.1 Introduction
4.2 Nature of Current and Current Density
4.3 Resistance of a Conductor
4.4 The Equation Of Continuity
4.S Relaxation Time
4.6 Joule’s Law
4.7 Steady Current in a Diode
4.8 Boundary Conditions for Current Density
4.9 Analogy Between D and J
4.10 The Electromotive Force
4.11 Summary
4.12 Review Questions
4.13 Problems
5 MAGNETOSTATICS
6 APPLICATIONS OF STATIC FIELDS
7 TIME-VARYING ELECTROMAGNETIC FIELDS
8 PLANE WAVE PROPAGATION
9 TRANSMISSION LINES
10 WAVEGUIDES AND CAVITY RESONATORS
11 ANTENNAS
12 COMPUTER-AIDED ANALYSIS OF ELECTROMAGNETIC FIELDS
APPENDIX A SMITH CHART AND ITS APPLICATIONS
APPENDIX B COMPUTER PROGRAMS FOR VARIOUS PROBLEMS
APPENDIX C USEFUL MATHEMATICAL TABLES
INDEX
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