| Preface |
| Linear Analysis / 1: |
| Linear Spaces / 1.1: |
| Linear Transformations / 1.2: |
| The Inversion Problem / 1.3: |
| Green's Functions / 1.4: |
| Reciprocity / 1.5: |
| Green's Dyadics / 1.6: |
| Convergence of a Series / 1.7: |
| Eigenfunctions / 1.8: |
| Integral Operators / 1.9: |
| Eigenfunction Expansions / 1.10: |
| Discretization / 1.11: |
| Matrices / 1.12: |
| Solution of Matrix Equations: Stability / 1.13: |
| Finite Differences / 1.14: |
| Perturbations / 1.15: |
| Variational Techniques / 2: |
| Stationary functionals / 2.1: |
| A Suitable Functional for the String Problem / 2.2: |
| Functionals for the General L Transformation / 2.3: |
| Euler's Equations of Some Important Functionals / 2.4: |
| Discretization of the Trial Functions / 2.5: |
| Simple Finite Elements for Planar Problems / 2.6: |
| More Finite Elements / 2.7: |
| Direct Numerical Solution of Matrix Problems / 2.8: |
| Iterative Numerical Solution of Matrix Problems / 2.9: |
| Electrostatic Fields in the Presence of Dielectrics / 3: |
| Volume Charges in Vacuum / 3.1: |
| Green's Function for Infinite Space / 3.2: |
| Multipole Expansion / 3.3: |
| Potential Generated by a Single Layer of Charge / 3.4: |
| Potential Generated by a Double Layer of Charge / 3.5: |
| Potential Generated by a Linear Charge / 3.6: |
| Spherical Harmonics / 3.7: |
| Dielectric Materials / 3.8: |
| Cavity Fields / 3.9: |
| Dielectric Sphere in an External Field / 3.10: |
| Dielectric Spheroid in an Incident Field / 3.11: |
| Numerical Methods / 3.12: |
| Electrostatic Fields in the Presence of Conductors / 4: |
| Conductivity / 4.1: |
| Potential Outside a Charged Conductor / 4.2: |
| Capacitance Matrix / 4.3: |
| The Dirichlet Problem / 4.4: |
| The Neumann Problem / 4.5: |
| Numerical Solution of the Charge Density Problem / 4.6: |
| Conductor in an External Field / 4.7: |
| Conductors in the Presence of Dielectrics / 4.8: |
| Current Injection into a Conducting Volume / 4.9: |
| Contact Electrodes / 4.10: |
| Chains of Conductors / 4.11: |
| Special Geometries for the Electrostatic Field / 5: |
| Two-Dimensional Potentials in the Plane / 5.1: |
| Field Behavior at a ConductingWedge / 5.2: |
| Field Behavior at a DielectricWedge / 5.3: |
| Separation of Variables in Two Dimensions / 5.4: |
| Two-Dimensional Integral Equations / 5.5: |
| Finite Methods in Two Dimensions / 5.6: |
| Infinite Computational Domains / 5.7: |
| More Two-Dimensional Techniques / 5.8: |
| Layered Media / 5.9: |
| Apertures / 5.10: |
| Axisymmetric Geometries / 5.11: |
| Conical Boundaries / 5.12: |
| Magnetostatic Fields / 6: |
| Magnetic Fields in Free Space: Vector Potential / 6.1: |
| Fields Generated by Linear Currents / 6.2: |
| Fields Generated by Surface Currents / 6.3: |
| Fields at Large Distances from the Sources / 6.4: |
| Scalar Potential in Vacuum / 6.5: |
| Magnetic Materials / 6.6: |
| Permanent Magnets / 6.7: |
| The Limit of Infinite Permeability / 6.8: |
| Two-Dimensional Fields in the Plane / 6.9: |
| Numerical Methods: Integral Equations / 6.10: |
| Numerical Methods: Finite Elements / 6.12: |
| Nonlinear Materials / 6.13: |
| Strong Magnetic Fields and Force-Free Currents / 6.14: |
| Radiation in Free Space / 7: |
| Maxwell's Equations / 7.1: |
| TheWave Equation / 7.2: |
| Potentials / 7.3: |
| Sinusoidal Time Dependence: Polarization / 7.4: |
| Partially Polarized Fields / 7.5: |
| The Radiation Condition / 7.6: |
| Time-Harmonic Potentials / 7.7: |
| Radiation Patterns / 7.8: |
| Equivalent Sources / 7.9: |
| LinearWire Antennas / 7.13: |
| CurvedWire Antennas: Radiation / 7.14: |
| Transient Sources / 7.15: |
| Radiation in a Material Medium / 8: |
| Constitutive Equations / 8.1: |
| PlaneWaves / 8.2: |
| Ray Methods / 8.3: |
| Beamlike Propagation / 8.4: |
| Equivalent Circuit of an Antenna / 8.5: |
| Effective Antenna Area / 8.8: |
| Plane Boundaries / 9: |
| PlaneWave Incident on a Plane Boundary / 9.1: |
| Propagation Through a Layered Medium / 9.2: |
| The Sommerfeld Dipole Problem / 9.3: |
| Multilayered Structures / 9.4: |
| Periodic Structures / 9.5: |
| Field Penetration Through Apertures / 9.6: |
| Edge Diffraction / 9.7: |
| The Wave Equation / 10: |
| Preface |
| Linear Analysis / 1: |
| Linear Spaces / 1.1: |
| Linear Transformations / 1.2: |
| The Inversion Problem / 1.3: |
| Green's Functions / 1.4: |
