Fundamentals of Electromagnetics for Electrical and Computer Engineering.
Rao, Nannapaneni Narayana.
Fundamentals of Electromagnetics for Electrical and Computer Engineering. - 1 online resource (481 pages)
Cover -- Contents -- Preface -- About the Author -- Gratitude and "Grattitude" -- CHAPTER 1 Vectors and Fields -- 1.1 Vector Algebra -- 1.2 Cartesian Coordinate System -- 1.3 Scalar and Vector Fields -- 1.4 Sinusoidally Time-Varying Fields -- 1.5 The Electric Field -- 1.6 The Magnetic Field -- Summary -- Review Questions -- Problems -- CHAPTER 2 Maxwell's Equations in Integral Form -- 2.1 The Line Integral -- 2.2 The Surface Integral -- 2.3 Faraday's Law -- 2.4 Ampere's Circuital Law -- 2.5 Gauss' Law for the Electric Field -- 2.6 Gauss' Law for the Magnetic Field -- Summary -- Review Questions -- Problems -- CHAPTER 3 Maxwell's Equations in Differential Form -- 3.1 Faraday's Law -- 3.2 Ampere's Circuital Law -- 3.3 Curl and Stokes' Theorem -- 3.4 Gauss' Law for the Electric Field -- 3.5 Gauss' Law for the Magnetic Field -- 3.6 Divergence and the Divergence Theorem -- Summary -- Review Questions -- Problems -- CHAPTER 4 Wave Propagation in Free Space -- 4.1 The Infinite Plane Current Sheet -- 4.2 Magnetic Field Adjacent to the Current Sheet -- 4.3 Successive Solution of Maxwell's Equations -- 4.4 Solution by Wave Equation -- 4.5 Uniform Plane Waves -- 4.6 Poynting Vector and Energy Storage -- Summary -- Review Questions -- Problems -- CHAPTER 5 Wave Propagation in Material Media -- 5.1 Conductors and Dielectrics -- 5.2 Magnetic Materials -- 5.3 Wave Equation and Solution -- 5.4 Uniform Plane Waves in Dielectrics and Conductors -- 5.5 Boundary Conditions -- 5.6 Reflection and Transmission of Uniform Plane Waves -- Summary -- Review Questions -- Problems -- CHAPTER 6 Statics, Quasistatics, and Transmission Lines -- 6.1 Gradient and Electric Potential -- 6.2 Poisson's and Laplace's Equations -- 6.3 Static Fields and Circuit Elements -- 6.4 Low-Frequency Behavior via Quasistatics. 6.5 The Distributed Circuit Concept and the Parallel-Plate Transmission Line -- 6.6 Transmission Line with an Arbitrary Cross Section -- Summary -- Review Questions -- Problems -- CHAPTER 7 Transmission-Line Analysis -- A. Frequency Domain -- 7.1 Short-Circuited Line and Frequency Behavior -- 7.2 Transmission-Line Discontinuity -- 7.3 The Smith Chart -- B.Time Domain -- 7.4 Line Terminated by Resistive Load -- 7.5 Lines with Initial Conditions -- 7.6 Interconnections between Logic Gates -- Summary -- Review Questions -- Problems -- CHAPTER 8 Waveguide Principles -- 8.1 Uniform Plane Wave Propagation in an Arbitrary Direction -- 8.2 Transverse Electric Waves in a Parallel-Plate Waveguide -- 8.3 Dispersion and Group Velocity -- 8.4 Rectangular Waveguide and Cavity Resonator -- 8.5 Reflection and Refraction of Plane Waves -- 8.6 Dielectric Slab Guide -- Summary -- Review Questions -- Problems -- CHAPTER 9 Antenna Basics -- 9.1 Hertzian Dipole -- 9.2 Radiation Resistance and Directivity -- 9.3 Half-Wave Dipole -- 9.4 Antenna Arrays -- 9.5 Image Antennas -- 9.6 Receiving Properties -- Summary -- Review Questions -- Problems -- CHAPTER 10 Supplementary Topics -- 10.1 Wave Propagation in Ionized Medium -- 10.2 Wave Propagation in Anisotropic Medium -- 10.3 Electromagnetic Compatibility and Shielding -- 10.4 Crosstalk on Transmission Lines -- 10.5 Parallel-Plate Waveguide Discontinuity -- 10.6 Magnetic Vector Potential and the Loop Antenna -- APPENDICES -- A. Cylindrical and Spherical Coordinate Systems -- B. Curl, Divergence, and Gradient in Cylindrical and Spherical Coordinate Systems -- C. Units and Dimensions -- Suggested Collateral and Further Reading -- Answers to Odd-Numbered Problems -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W.
9788131740309
Electronic books.
537
Fundamentals of Electromagnetics for Electrical and Computer Engineering. - 1 online resource (481 pages)
Cover -- Contents -- Preface -- About the Author -- Gratitude and "Grattitude" -- CHAPTER 1 Vectors and Fields -- 1.1 Vector Algebra -- 1.2 Cartesian Coordinate System -- 1.3 Scalar and Vector Fields -- 1.4 Sinusoidally Time-Varying Fields -- 1.5 The Electric Field -- 1.6 The Magnetic Field -- Summary -- Review Questions -- Problems -- CHAPTER 2 Maxwell's Equations in Integral Form -- 2.1 The Line Integral -- 2.2 The Surface Integral -- 2.3 Faraday's Law -- 2.4 Ampere's Circuital Law -- 2.5 Gauss' Law for the Electric Field -- 2.6 Gauss' Law for the Magnetic Field -- Summary -- Review Questions -- Problems -- CHAPTER 3 Maxwell's Equations in Differential Form -- 3.1 Faraday's Law -- 3.2 Ampere's Circuital Law -- 3.3 Curl and Stokes' Theorem -- 3.4 Gauss' Law for the Electric Field -- 3.5 Gauss' Law for the Magnetic Field -- 3.6 Divergence and the Divergence Theorem -- Summary -- Review Questions -- Problems -- CHAPTER 4 Wave Propagation in Free Space -- 4.1 The Infinite Plane Current Sheet -- 4.2 Magnetic Field Adjacent to the Current Sheet -- 4.3 Successive Solution of Maxwell's Equations -- 4.4 Solution by Wave Equation -- 4.5 Uniform Plane Waves -- 4.6 Poynting Vector and Energy Storage -- Summary -- Review Questions -- Problems -- CHAPTER 5 Wave Propagation in Material Media -- 5.1 Conductors and Dielectrics -- 5.2 Magnetic Materials -- 5.3 Wave Equation and Solution -- 5.4 Uniform Plane Waves in Dielectrics and Conductors -- 5.5 Boundary Conditions -- 5.6 Reflection and Transmission of Uniform Plane Waves -- Summary -- Review Questions -- Problems -- CHAPTER 6 Statics, Quasistatics, and Transmission Lines -- 6.1 Gradient and Electric Potential -- 6.2 Poisson's and Laplace's Equations -- 6.3 Static Fields and Circuit Elements -- 6.4 Low-Frequency Behavior via Quasistatics. 6.5 The Distributed Circuit Concept and the Parallel-Plate Transmission Line -- 6.6 Transmission Line with an Arbitrary Cross Section -- Summary -- Review Questions -- Problems -- CHAPTER 7 Transmission-Line Analysis -- A. Frequency Domain -- 7.1 Short-Circuited Line and Frequency Behavior -- 7.2 Transmission-Line Discontinuity -- 7.3 The Smith Chart -- B.Time Domain -- 7.4 Line Terminated by Resistive Load -- 7.5 Lines with Initial Conditions -- 7.6 Interconnections between Logic Gates -- Summary -- Review Questions -- Problems -- CHAPTER 8 Waveguide Principles -- 8.1 Uniform Plane Wave Propagation in an Arbitrary Direction -- 8.2 Transverse Electric Waves in a Parallel-Plate Waveguide -- 8.3 Dispersion and Group Velocity -- 8.4 Rectangular Waveguide and Cavity Resonator -- 8.5 Reflection and Refraction of Plane Waves -- 8.6 Dielectric Slab Guide -- Summary -- Review Questions -- Problems -- CHAPTER 9 Antenna Basics -- 9.1 Hertzian Dipole -- 9.2 Radiation Resistance and Directivity -- 9.3 Half-Wave Dipole -- 9.4 Antenna Arrays -- 9.5 Image Antennas -- 9.6 Receiving Properties -- Summary -- Review Questions -- Problems -- CHAPTER 10 Supplementary Topics -- 10.1 Wave Propagation in Ionized Medium -- 10.2 Wave Propagation in Anisotropic Medium -- 10.3 Electromagnetic Compatibility and Shielding -- 10.4 Crosstalk on Transmission Lines -- 10.5 Parallel-Plate Waveguide Discontinuity -- 10.6 Magnetic Vector Potential and the Loop Antenna -- APPENDICES -- A. Cylindrical and Spherical Coordinate Systems -- B. Curl, Divergence, and Gradient in Cylindrical and Spherical Coordinate Systems -- C. Units and Dimensions -- Suggested Collateral and Further Reading -- Answers to Odd-Numbered Problems -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W.
9788131740309
Electronic books.
537