Ulaby, Michielssen & Ravaioli, Fundamentals of Applied Electromagnetics. Chapter 1 Introduction: Waves and Phasors. Historical Timeline 1- 1.
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- Engineering electromagnetics 8th edition - william h. hayt - original 1. This page intentionally left blank 2. November 22, 2010 20:32 Hayt/Buck Page 2 hay80660 frontendsheet 2and3.pdf Physical Constants Quantity.
- Transmission lines constitute a natural bridge between electric circuits and electromagnetics. By introducing transmission lines early, Ulaby allows the student to use familiar concepts to learn about many of the properties of.
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EM in the Classical Era 1- 1. EM in the Modern Era 1- 2 Dimensions, Units, and Notation 1- 3 The Nature of Electromagnetism 1- 3. The Gravitational Force: A Useful Analogue 1- 3. Electric Fields 1- 3.
Magnetic Fields 1- 3. Static and Dynamic Fields 1- 4 Traveling Waves 1- 4.
Sinusoidal Waves in a Lossless Medium 1- 4. Sinusoidal Waves in a Lossy Medium 1- 5 The Electromagnetic Spectrum 1- 6 Review of Complex Numbers TB1 LED Lighting 1- 7 Review of Phasors 1- 7. Solution Procedure 1- 7. Traveling Waves in the Phasor Domain TB2 Solar Cells Chapter 2 Transmission Lines 2- 1 General Considerations 2- 1. The Role of Wavelength 2- 1. Propagation Modes 2- 2 Lumped- Element Model 2- 3 Transmission- Line Equations 2- 4 Wave Propagation on a Transmission Line 2- 5 The Lossless Microstrip Line 2- 6 The Lossless Transmission Line: General Considerations 2- 6.
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Voltage Reflection Coefficient 2- 6. Standing Waves 2- 7 Wave Impedance of the Lossless Line TB3 Microwave Ovens 2- 8 Special Cases of the Lossless Line 2- 8. Short- Circuited Line 2- 8. Open- Circuited Line 2- 8. Application of Short- Circuit/ Open- Circuit Technique 2- 8.
Lines of Length l = nλ/2 2- 8. Quarter- Wavelength Transformer 2- 8. Matched Transmission Line: ZL = Z0 2- 9 Power Flow on a Lossless Transmission Line 2- 9.
Instantaneous Power 2- 9. Time- Average Power 2- 1. The Smith Chart 2- 1. Parametric Equations 2- 1. Wave Impedance 2- 1. SWR, Voltage Maxima and Minima 2- 1.
Impedance to Admittance Transformations 2- 1. Impedance Matching 2- 1. Lumped- Element Matching 2- 1. Single- Stub Matching 2- 1.
Transients on Transmission Lines 2- 1. Transient Response 2- 1. Bounce Diagrams TB4 EM Cancer Zappers Chapter 3 Vector Analysis 3- 1 Basic Laws of Vector Algebra 3- 1.
Equality of Two Vectors. Vector Addition and Subtraction 3- 1. Position and Distance Vectors.
Vector Multiplication 3- 1. Scalar and Vector Triple Products 3- 2 Orthogonal Coordinate Systems.
Cartesian Coordinates. Cylindrical Coordinates 3- 2. Spherical Coordinates TB5 Global Positioning System 3- 3 Transformations between Coordinate Systems 3- 3. Cartesian to Cylindrical Transformations 3- 3. Cartesian to Spherical Transformations 3- 3. Cylindrical to Spherical Transformations. Distance between Two Points 3- 4 Gradient of a Scalar Field.
Gradient Operator in Cylindrical and Spherical Coordinates 3- 4. Properties of the Gradient Operator 3- 5 Divergence of a Vector Field TB6 X- Ray Computed Tomography 3- 6 Curl of a Vector Field. Vector Identities Involving the Curl 3- 6. Stokes’s Theorem 3- 7 Laplacian Operator Chapter 4 Electrostatics 4- 1 Maxwell’s Equations 4- 2 Charge and Current Distributions 4- 2.
Charge Densities. Current Density 4- 3 Coulomb’s Law. Electric Field due to Multiple Point Charges 4- 3. Electric Field due to a Charge Distribution 4- 4 Gauss’s Law 4- 5 Electric Scalar Potential 4- 5. Electric Potential as a Function of Electric Field 4- 5. Electric Potential Due to Point Charges 4- 5.
Electric Potential Due to Continuous Distributions 4- 5. Electric Field as a Function of Electric Potential 4- 5.
Poisson’s Equation 4- 6 Conductors 4- 6. Drift Velocity 4- 6. Resistance 4- 6. 3 Joule’s Law TB7 Resistive Sensors 4- 7 Dielectrics 4- 7. Polarization Field 4- 7. Dielectric Breakdown 4- 8 Electric Boundary Conditions 4- 8. Dielectric- Conductor Boundary 4- 8. Conductor- Conductor Boundary 4- 9 Capacitance 4- 1.
Electrostatic Potential Energy TB8 Supercapacitors as Batteries 4- 1. Image Method TB9 Capacitive Sensors Chapter 5 Magnetostatics 5- 1 Magnetic Forces and Torques. Magnetic Force on a Current- Carrying Conductor 5- 1. Magnetic Torque on a Current- Carrying Loop 5- 2 The Biot—Savart Law 5- 2. Magnetic Field due to Surface and Volume Current Distributions 5- 2. Magnetic Field of a Magnetic Dipole 5- 2.
Magnetic Force Between Two Parallel Conductors. Maxwell’s Magnetostatic Equations 5- 3. Gauss’s Law for Magnetism TB1. Electromagnets 5- 3. Amp` ere’s Law 5- 4 Vector Magnetic Potential 5- 5 Magnetic Properties of Materials 5- 5. Electron Orbital and Spin Magnetic Moments.
Magnetic Permeability 5- 5. Magnetic Hysteresis of Ferromagnetic Materials. Magnetic Boundary Conditions 5- 7 Inductance 5- 7. Magnetic Field in a Solenoid 5- 7. Self- Inductance 5- 7. Mutual Inductance 5- 8 Magnetic Energy TB1. Inductive Sensors Chapter 6 Maxwell’s Equations for Time- Varying Fields.
Faraday’s Law 6- 2 Stationary Loop in a Time- Varying Magnetic Field. The Ideal Transformer 6- 4 Moving Conductor in a Static Magnetic Field. The Electromagnetic Generator 6- 6 Moving Conductor in a Time- Varying Magnetic Field. TB1. 2 EMF Sensors 6- 7 Displacement Current 6- 8 Boundary Conditions for Electromagnetics. Charge- Current Continuity Relation 6- 1. Free- Charge Dissipation in a Conductor 6- 1. Electromagnetic Potentials 6- 1.
Retarded Potentials 6- 1. Time- Harmonic Potentials Chapter 7 Plane- Wave Propagation 7- 1 Time- Harmonic Fields 7- 1. Complex Permittivity 7- 1. Wave Equations 7- 2 Plane- Wave Propagation in Lossless Media. Uniform Plane Waves 7- 2.
General Relation Between E and H 3. TB1. 3 RFID Systems 7- 3 Wave Polarization 7- 3. Linear Polarization 7- 3. Circular Polarization 7- 3. Elliptical Polarization TB1. Liquid Crystal Display (LCD) 7- 4 Plane- Wave Propagation in Lossy Media 7- 4. Low- Loss Dielectric 7- 4.
Good Conductor 7- 5 Current Flow in a Good Conductor 7- 6 Electromagnetic Power Density 7- 6. Plane Wave in a Lossless Medium 7- 6. Plane Wave in a Lossy Medium 7- 6. Decibel Scale for Power Ratios Chapter 8 Wave Reflection and Transmission. Wave Reflection and Transmission at Normal Incidence. Boundary between Lossless Media 8- 1. Transmission- Line Analogue 8- 1.
Power Flow in Lossless Media 8- 1. Boundary between Lossy Media 8- 2 Snell’s Laws 8- 3 Fiber Optics TB1. Lasers 8- 4 Wave Reflection and Transmission at Oblique Incidence.
Perpendicular Polarization 8- 4. Parallel Polarization 8- 4. Brewster Angle 8- 5 Reflectivity and Transmissivity TB1. Bar- Code Readers 8- 6 Waveguides 8- 7 General Relations for E and H 8- 8 TM Modes in Rectangular Waveguide 8- 9 TE Modes in Rectangular Waveguide 8- 1.
Propagation Velocities 8- 1. Cavity Resonators 8- 1. Resonant Frequency 8- 1. Quality Factor Chapter 9 Radiation and Antennas 9- 1 The Hertzian Dipole 9- 1. Far- Field Approximation 9- 1. Power Density 9- 2 Antenna Radiation Characteristics 9- 2. Antenna Pattern 9- 2.
Beam Dimensions 9- 2. Antenna Directivity 9- 2. Antenna Gain 9- 2. Radiation Resistance 9- 3 Half- Wave Dipole Antenna 9- 3. Directivity of λ/2 Dipole 9- 3. Radiation Resistance of λ/2 Dipole 9- 3. Quarter- Wave Monopole Antenna 9- 4 Dipole of Arbitrary Length TB1.
Health Risks of EM Fields 9- 5 Effective Area of a Receiving Antenna 9- 6 Friis Transmission Formula 9- 7 Radiation by Large- Aperture Antennas 9- 8 Rectangular Aperture with Uniform Aperture Distribution. Beamwidth 9- 8. 2 Directivity and Effective Area 9- 9 Antenna Arrays 9- 1.
N- Element Array with Uniform Phase Distribution. Electronic Scanning of Arrays 9- 1. Uniform- Amplitude Excitation 9- 1.
Array Feeding Chapter 1. Satellite Communication Systems and Radar Sensors. Satellite Communication Systems 1. Satellite Transponders 1. Communication- Link Power Budget 1.
Antenna Beams 1. 0- 5 Radar Sensors 1. Basic Operation of a Radar System 1. Unambiguous Range 1. Range and Angular Resolutions 1. Target Detection 1. Doppler Radar 1. 0- 8 Monopulse Radar Appendix A Symbols, Quantities, Units, and Abbreviations. Appendix B Material Constants of Some Common Materials.
Appendix C Mathematical Formulas Appendix D Answers to Selected Problems. Bibliography Index.