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Tables of Contents for Electromagnetics for Engineers
Chapter/Section Title
Page #
Page Count
Preface
v
8
Introduction
xiii
Chapter 1 TRANSMISSION LINES
1
38
1.1 The Lumped-Circuit Theory
2
3
1.2 Waves on the Ideal Lossless Line
5
7
1.3 Characteristic Impedance
12
2
1.4 Reflection and Transmission
14
6
1.5 More General Transmission Lines
20
2
1.6 Attenuation and Dispersion
22
4
1.7 Non-Sinusoidal Waves
26
4
1.8 Points to Remember
30
9
Chapter 2 TRANSMISSION-LINE TECHNIQUES
39
35
2.1 Standing-Wave Ratio
39
4
2.2 Impedance
43
1
2.3 The Smith Chart
44
9
2.4 Impedance-Matching Techniques
53
6
2.5 Practical Transmission Lines
59
3
2.6 Measurements on Transmission Lines
62
4
2.7 Points to Remember
66
8
Chapter 3 FIELDS AND FIELD OPERATORS
74
22
3.1 Review of Vector Analysis
74
5
3.2 Scalar and Vector Fields
79
2
3.3 Line and Surface Integrals
81
6
3.4 Introduction to Differential Operators
87
3
3.5 Points to Remember
90
6
Chapter 4 THE ELECTROSTATIC FIELD
96
48
4.1 Source of the Electrostatic Field
96
5
4.2 The Source Equation
101
3
4.3 Gauss' Law
104
6
4.4 Electrostatic Energy and Potential
110
7
4.5 Capacitors
117
3
4.6 Laplace's and Poisson's Equations
120
7
4.7 Points to Remember
127
17
Chapter 5 THE MAGNETOSTATIC FIELD
144
41
5.1 Origin of the Magnetostatic Field
145
6
5.2 Magnetic Flux Density and Magnetic Flux
151
1
5.3 Magnetic Force
152
1
5.4 The Curl Operator
153
5
5.5 Stokes' Theorem and Ampere's Circuital Law
158
6
5.6 Boundary Conditions
164
5
5.7 Ferromagnetic Devices
169
9
5.8 Points to Remember
178
7
Chapter 6 TIME-VARYING FIELDS
185
29
6.1 Displacement Current
185
5
6.2 Faraday's Law
190
4
6.3 Inductance
194
7
6.4 Maxwell's Equations
201
2
6.5 Points to Remember
203
11
Chapter 7 ELECTRODYNAMICS
214
33
7.1 Sinusoidal Fields
215
2
7.2 The Vector Laplacian Operator
217
1
7.3 The Skin Effect
218
12
7.4 Electromagnetic Waves
230
5
7.5 The Quasistatic Approximation
235
3
7.6 Points to Remember
238
9
Chapter 8 PLANE WAVES
247
44
8.1 Characteristics of Plane Waves
247
7
8.2 Poynting's Theorem
254
9
8.3 Reflection and Transmission at Normal Incidence
263
5
8.4 Reflection and Refraction at Oblique Incidence
268
11
8.5 Plane Waves in Lossy Media
279
2
8.6 Points to Remember
281
10
Chapter 9 GUIDED WAVES
291
50
9.1 TEM Waves on Transmission Lines
292
6
9.2 Hollow Metal Waveguides
298
11
9.3 Cavity Resonators
309
2
9.4 Planar Waveguides and Microstrip
311
6
9.5 Dielectric Waveguides and Optical Fibers
317
10
9.6 Points to Remember
327
14
Chapter 10 RADIATION AND ANTENNAS
341
44
10.1 Sources of Radiation
342
6
10.2 The Elementary Dipole
348
4
10.3 Long-Wire Antennas
352
7
10.4 Antenna Arrays
359
5
10.5 Aperture Antennas
364
5
10.6 Receiving Antennas and Reciprocity
369
9
10.7 Points to Remember
378
7
Appendix A CURVILINEAR COORDINATES
385
9
Appendix B SUMMARY OF BOUNDARY CONDITIONS
394
2
Appendix C ELECTRICAL ENERGY EXPRESSED AS AN INTEGRAL OF THE FIELD
396
3
SOLUTIONS TO EVEN-NUMBERED PROBLEMS
399
8
INDEX
407