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    Electromagnetic foundations of electrical engineering / J.A. Brandão Faria.

    By: Faria, J. A. Brandão, 1952-Material type: TextTextPublisher: Chichester, U.K. : Wiley, 2008Description: xx, 399 p. : ill. ; 25 cmISBN: 9780470727096 (cloth); 0470727098 (cloth); 0470697490; 9780470697498Subject(s): Electrical engineering | Electromagnetic fields | ElectromagnetismDDC classification: 621.3 LOC classification: TK146 | .F37 2008Online resources: Table of contents only
    Contents:
    CONTENTSPREFACE & To the Electrical Engineer PractitionerTo the StudentTo the InstructorACKNOWLEDGEMENTSPROJECT PORTFOLIOAnalysis of a power delivery systemCylindrical type transmission linesDC current transducerDetermination of the conductivity of a circular conducting diskDirectional coupler analysis Ill-defined grounding problemsInduction machine analysisLine matching technique using an exponential transmission-line sectionLinear variable differential transformerMagnetic actuator and sensor deviceOverhead-line protection by ground-wiresPower line carrier communicationPseudo-balanced three-phase linesScreened high-voltage three-phase installationShielded three-phase cable analysisThree-route microwave splitterTransmission-line system with balun transformer for eventoodd-mode conversionTransmission-line system with transformer-stage matchingTwo-way loudspeaker analysisVariable reluctance transformerPART I -- A BRIEF OVERVIEWINTRODUCTIONCHAPTER 1 -- BASIC FIELD VECTORS1.1 -- The Electric and Magnetic Field Vectors1.2 -- Constitutive Relations1.3 -- Units and Notation1.4 -- Fundamental Concepts of Voltage and Current IntensityPART II -- STATIONARY FIELD PHENOMENAINTRODUCTIONCHAPTER 2 -- ELECTROSTATICS2.1 -- Fundamental Equations2.2 -- Gradient Electric Field, Electric Potential, Voltage, Kirchhoff's Voltage Law2.3 -- Electric Charge, Electric Displacement Vector2.4 -- Dielectric Media, Permittivity, Polarization, Dielectric Strength2.5 -- Conductors in Electrostatic Equilibrium2.6 -- Application Example (Filament of charge)2.7 -- Capacitor, Capacitance, Electric Energy2.8 -- Application Example (Two-wire transmission line)2.9 -- Multiple Conductor Systems2.10 -- Application Example (Electric coupling in printed circuit boards)2.11 -- Electric Forces and Torques2.12 -- Homework Proposed ProblemsCHAPTER 3 -- STATIONARY CURRENTS3.1 -- Fundamental Equations3.2 -- Conductivity, Current Density, Electric Circuits3.3 -- Current Intensity, Kirchhoff's Current Law3.4 -- Resistor, Conductance, Resistance, Ohm's Law3.5 -- Application Example (The potentiometer)3.6 -- Application Example (The Wheatstone bridge)3.7 -- Joule Losses, Generator Applied Field3.8 -- Generator Electromotive Force, Power Balance3.9 -- Homework Proposed ProblemsCHAPTER 4 -- MAGNETIC FIELD OF STATIONARY CURRENTS4.1 -- Fundamental Equations4.2 -- Ampere's Law, Magnetomotive Force, Magnetic Voltage4.3 -- Magnetic Induction Field, Magnetic Induction Flux4.4 -- Application Example (Power line magnetic fields)4.5 -- Magnetic Materials, Ferromagnetic Media, Saturation and Hysteresis4.6 -- Magnetic Circuits4.7 -- Application Example (Three-legged transformer)4.8 -- Magnetic Reluctance4.9 -- Inductor, Inductance, Magnetic Flux Linkage, Magnetic Energy4.10 -- Application Example (Coaxial cable)4.11 -- Hysteresis Losses4.12 -- Multiple Circuit Systems4.13 -- Magnetic Forces and Torques4.14 -- Application Example (U-shaped electromagnet)4.15 -- Homework Proposed ProblemsPART III -- SLOW TIME-VARYING FIELDSINTRODUCTIONCHAPTER 5 -- MAGNETIC INDUCTION PHENOMENA5.1 -- Fundamental Equations5.2 -- Gradient and Induction Electric Fields, Potential Vector5.3 -- Revisiting the Voltage Concept5.4 -- Induction Law5.5 -- Application Example (Magnetic noise effects)5.6 -- Voltages and Currents in Magnetically Multicoupled Systems5.7 -- Application Example (Magnetic coupling in printed circuit boards)5.8 -- Eddy Currents5.9 -- Generalization of the Induction Law to Moving Circuit Systems5.10 -- Application Example (Electromechanical energy conversion)5.11 -- DC Voltage Generation5.12 -- AC Voltage Generation5.13 -- Homework Proposed ProblemsCHAPTER 6 -- ELECTRIC INDUCTION PHENOMENA6.1 -- Fundamental Equations6.2 -- Displacement Current, Generalized Ampere's Law6.3 -- Charge Continuity Equation6.4 -- Revisiting the Current Intensity Concept6.5 -- Application Example (Capacitor self-discharge)6.6 -- Voltages and Currents in Electrically Multicoupled Systems6.7 -- Homework Proposed ProblemsCHAPTER 7 -- LUMPED PARAMETERS CIRCUIT ANALYSIS7.1 -- Introduction7.2 -- Steady-State Harmonic Regimes7.3 -- Transformer Analysis7.4 -- Transient Regimes7.5 -- Homework Proposed ProblemsPART IV -- RAPID TIME-VARYING FIELDSINTRODUCTIONCHAPTER 8 -- ELECTROMAGNETIC FIELD PHENOMENA8.1 -- Electromagnetic Waves8.2 -- Poynting's Theorem, Poynting's Vector, Power Flow8.3 -- Time-Harmonic Fields, Field Polarization, RMS Field Values8.4 -- Phasor-Domain Maxwell Equations, Material Media Constitutive Relations8.5 -- Application Example (Uniform plane waves)8.6 -- Complex Poynting's Vector8.7 -- Application Example (Skin effect)8.8 -- Homework Proposed ProblemsCHAPTER 9 -- TRANSMISSION LINE ANALYSIS9.1 -- Introduction9.2 -- Time-Domain Transmission-Line Equations for Lossless Lines9.3 -- Application Example (Parallel-plate transmission line)9.4 -- Frequency-Domain Transmission-Line Equations for Lossy Lines9.5 -- Frequency-Domain Transmission-Line Equations for Lossless Lines9.6 -- Application Example (Line matching techniques)9.7 -- Multiconductor Transmission Lines9.8 -- Application Example (Even and odd modes)9.9 -- Homework Proposed ProblemsAPPENDICESAppendix 1 -- Formulas from Vector AnalysisAppendix 2 -- Lorentz TransformationAppendix 3 -- Elements of Complex AlgebraAppendix 4 -- Elements of Fourier AnalysisBIBLIOGRAPHYINDEX.
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    		TK146 .F37 2008 (Browse shelf (Opens below)) 1 Available STACKS 51952000063230

    Includes bibliographical references and index.

    CONTENTSPREFACE & To the Electrical Engineer PractitionerTo the StudentTo the InstructorACKNOWLEDGEMENTSPROJECT PORTFOLIOAnalysis of a power delivery systemCylindrical type transmission linesDC current transducerDetermination of the conductivity of a circular conducting diskDirectional coupler analysis Ill-defined grounding problemsInduction machine analysisLine matching technique using an exponential transmission-line sectionLinear variable differential transformerMagnetic actuator and sensor deviceOverhead-line protection by ground-wiresPower line carrier communicationPseudo-balanced three-phase linesScreened high-voltage three-phase installationShielded three-phase cable analysisThree-route microwave splitterTransmission-line system with balun transformer for eventoodd-mode conversionTransmission-line system with transformer-stage matchingTwo-way loudspeaker analysisVariable reluctance transformerPART I -- A BRIEF OVERVIEWINTRODUCTIONCHAPTER 1 -- BASIC FIELD VECTORS1.1 -- The Electric and Magnetic Field Vectors1.2 -- Constitutive Relations1.3 -- Units and Notation1.4 -- Fundamental Concepts of Voltage and Current IntensityPART II -- STATIONARY FIELD PHENOMENAINTRODUCTIONCHAPTER 2 -- ELECTROSTATICS2.1 -- Fundamental Equations2.2 -- Gradient Electric Field, Electric Potential, Voltage, Kirchhoff's Voltage Law2.3 -- Electric Charge, Electric Displacement Vector2.4 -- Dielectric Media, Permittivity, Polarization, Dielectric Strength2.5 -- Conductors in Electrostatic Equilibrium2.6 -- Application Example (Filament of charge)2.7 -- Capacitor, Capacitance, Electric Energy2.8 -- Application Example (Two-wire transmission line)2.9 -- Multiple Conductor Systems2.10 -- Application Example (Electric coupling in printed circuit boards)2.11 -- Electric Forces and Torques2.12 -- Homework Proposed ProblemsCHAPTER 3 -- STATIONARY CURRENTS3.1 -- Fundamental Equations3.2 -- Conductivity, Current Density, Electric Circuits3.3 -- Current Intensity, Kirchhoff's Current Law3.4 -- Resistor, Conductance, Resistance, Ohm's Law3.5 -- Application Example (The potentiometer)3.6 -- Application Example (The Wheatstone bridge)3.7 -- Joule Losses, Generator Applied Field3.8 -- Generator Electromotive Force, Power Balance3.9 -- Homework Proposed ProblemsCHAPTER 4 -- MAGNETIC FIELD OF STATIONARY CURRENTS4.1 -- Fundamental Equations4.2 -- Ampere's Law, Magnetomotive Force, Magnetic Voltage4.3 -- Magnetic Induction Field, Magnetic Induction Flux4.4 -- Application Example (Power line magnetic fields)4.5 -- Magnetic Materials, Ferromagnetic Media, Saturation and Hysteresis4.6 -- Magnetic Circuits4.7 -- Application Example (Three-legged transformer)4.8 -- Magnetic Reluctance4.9 -- Inductor, Inductance, Magnetic Flux Linkage, Magnetic Energy4.10 -- Application Example (Coaxial cable)4.11 -- Hysteresis Losses4.12 -- Multiple Circuit Systems4.13 -- Magnetic Forces and Torques4.14 -- Application Example (U-shaped electromagnet)4.15 -- Homework Proposed ProblemsPART III -- SLOW TIME-VARYING FIELDSINTRODUCTIONCHAPTER 5 -- MAGNETIC INDUCTION PHENOMENA5.1 -- Fundamental Equations5.2 -- Gradient and Induction Electric Fields, Potential Vector5.3 -- Revisiting the Voltage Concept5.4 -- Induction Law5.5 -- Application Example (Magnetic noise effects)5.6 -- Voltages and Currents in Magnetically Multicoupled Systems5.7 -- Application Example (Magnetic coupling in printed circuit boards)5.8 -- Eddy Currents5.9 -- Generalization of the Induction Law to Moving Circuit Systems5.10 -- Application Example (Electromechanical energy conversion)5.11 -- DC Voltage Generation5.12 -- AC Voltage Generation5.13 -- Homework Proposed ProblemsCHAPTER 6 -- ELECTRIC INDUCTION PHENOMENA6.1 -- Fundamental Equations6.2 -- Displacement Current, Generalized Ampere's Law6.3 -- Charge Continuity Equation6.4 -- Revisiting the Current Intensity Concept6.5 -- Application Example (Capacitor self-discharge)6.6 -- Voltages and Currents in Electrically Multicoupled Systems6.7 -- Homework Proposed ProblemsCHAPTER 7 -- LUMPED PARAMETERS CIRCUIT ANALYSIS7.1 -- Introduction7.2 -- Steady-State Harmonic Regimes7.3 -- Transformer Analysis7.4 -- Transient Regimes7.5 -- Homework Proposed ProblemsPART IV -- RAPID TIME-VARYING FIELDSINTRODUCTIONCHAPTER 8 -- ELECTROMAGNETIC FIELD PHENOMENA8.1 -- Electromagnetic Waves8.2 -- Poynting's Theorem, Poynting's Vector, Power Flow8.3 -- Time-Harmonic Fields, Field Polarization, RMS Field Values8.4 -- Phasor-Domain Maxwell Equations, Material Media Constitutive Relations8.5 -- Application Example (Uniform plane waves)8.6 -- Complex Poynting's Vector8.7 -- Application Example (Skin effect)8.8 -- Homework Proposed ProblemsCHAPTER 9 -- TRANSMISSION LINE ANALYSIS9.1 -- Introduction9.2 -- Time-Domain Transmission-Line Equations for Lossless Lines9.3 -- Application Example (Parallel-plate transmission line)9.4 -- Frequency-Domain Transmission-Line Equations for Lossy Lines9.5 -- Frequency-Domain Transmission-Line Equations for Lossless Lines9.6 -- Application Example (Line matching techniques)9.7 -- Multiconductor Transmission Lines9.8 -- Application Example (Even and odd modes)9.9 -- Homework Proposed ProblemsAPPENDICESAppendix 1 -- Formulas from Vector AnalysisAppendix 2 -- Lorentz TransformationAppendix 3 -- Elements of Complex AlgebraAppendix 4 -- Elements of Fourier AnalysisBIBLIOGRAPHYINDEX.

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