Chapter 1 Vector Analysis
1-1 Scalars and vectors
1-2 Vector algebra
1-3 Scalar and vector products
1-4 Directional derivative and gradient
1-5 Flux, divergence and divergence theorem
1-6 Circulation, curl and curl theorem
1-7 Solenoidal and irrotational fields
1-8 Green's theorems
1-9 Uniqueness theorem for vector fields
1-10 Helmholtz's theorem
1-11 Orthogonal curvilinear coordinates
Chapter summary
Review questions
Problems
Chapter 2 Static Electric Fields
2-1 Electric field intensity
2-2 Electrostatic fields in vacuum
2-3 Electric potential
2-4 Polarization of dielectrics
2-5 Electrostatic fields in dielectric
2-6 Boundary conditions for electrostatic fields
2-7 Capacitance
2-8 Energy in electrostatic field
2-9 Electric forces
2-10 Applications of electrostatic fields
Chapter summary
Review questions
Problems
Chapter 3 Boundary-Value Problems in Electrostatic Fields
3-1 Differential equations for electric potential
3-2 Uniqueness of solution of differential equationsfor electric potential
3-3 Method of images
3-4 Method of separation of variables in rectangular coordinates
3-5 Method of separation of variables in cylindrical coordinates
3-6 Method of separation of variables in spherical coordinates
Chapter summary
Review questions
Problems
Chapter 4 Steady Electric Current Fields
4-1 Electric current
4-2 Electromotive force
4-3 Steady electric current fields
4-4 Boundary conditions for steady electric current fields
4-5 Energy dissipation in conducting media
4-6 Electrostatic simulation
4-7 Applications of steady electric current fields
Chapter summary
Review questions
Problems
Chapter 5 Static Magnetic Fields
5-1 Magnetic flux density
5-2 Static magnetic fields in vacuum
5-3 Magnetic potentials
5-4 Magnetization of media
5-5 Static magnetic fields in media
5-6 Boundary conditions for static magnetic fields
Chapter summary
Review questions
Problems
Chapter 6 Electromagnetic Induction
6-1 Law of electromagnetic induction
6-2 Inductances
6-3 Energy in static magnetic fields
6-4 Magnetic forces
6-5 Applications of static magnetic field
Chapter summary
Review questions
Problems
Chapter 7 Time-varying Electromagnetic Fields
7-1 Displacement electric current
7-2 Maxwell's equations
7-3 Boundary conditions for time-varying electromagnetic fields
7-4 Scalar and vector potentials
7-5 Solution of equations for potentials
7-6 Energy density and energy flow density vector
7-7 Uniqueness theorem for time-varying electromagnetic fields
7-8 Sinusoidal electromagnetic fields
7-9 Complex Maxwell's equations
7-10 Complex potential functions
7-11 Complex energy flow density vector
7-12 Applications of time-varying electromagnetic fields
Chapter summary
Review questions
Problems
Chapter 8 Plane Electromagnetic Waves
8-1 Wave equations
8-2 Plane waves in perfect dielectrics
8-3 Plane waves in conducting media
8-4 Polarizations of plane waves
8-5 Normal incidence on a planar surface
8-6 Normal incidence at multiple boundaries
8-7 Plane waves in arbitrary directions
8-8 Oblique incidence at boundary between perfect dielectrics
8-9 Null and total reflections
8-10 Oblique incidence at conducting boundary
8-11 Oblique incidence at perfect conducting boundary
8-12 Plane waves in plasma
8-13 Plane waves in ferrite
8-14 Applications of electromagnetic waves
Chapter summary
Review questions
Problems
Chapter 9 Guided Electromagnetic Waves
9-1 TEM wave, TE wave, and TM wave
9-2 Transmission property of rectangular waveguides
9-3 TE10 wave in rectangular waveguides
9-4 Group velocity
9-5 Transmission property of circular waveguides
9-6 Transmitted power and loss in waveguides
9-7 Resonant cavity
9-8 Coaxial lines
9-9 Applications of guided waves
Chapter summary
Review questions
Problems
Chapter 10 Electromagnetic Radiation and Principles
10-1 Radiation by electric current element
10-2 Directivity of antennas
10-3 Radiation by symmetrical antennas
10-4 Radiation by antenna arrays
10-5 Radiation by electric current loop
10-6 Principle of duality
10-7 Principle of image
10-8 Principle of reciprocity
10-9 Huygens'principle
10-10 Radiations by aperture antennas
10-11 Applications of electromagnetic radiation
Chapter summary
Review questions
Problems
Appendixes
1.Symbols, units and dimensions of physical quantities
2.Decimal multiples and submultiples and their prefixes
3.Vector identities
4.Orthogonal coordinates system
5.δ functions
6.Bessel functions
7.Legendre functions
8.Frequency bands and their utilizations
Answers
Index
References
Biographies
