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| Guru B.S., Hiziroğlu H.R. — Electromagnetic Field Theory Fundamentals |
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| Ïðåäìåòíûé óêàçàòåëü |
Accelerators, charged particles 256
Action at a distance 74
Addition, vector 15 16
Air gaps in magnetic circuits 218
Ampere, Andr£ Marie 178 183
Ampere, unit of current 137 8 186
Ampere’s circuital law 8 198—201
Ampere’s circuital law and Maxwell’s equation 304—8
Ampere’s circuital law, integral form 198
Ampere’s circuital law, point form 199
Ampere’s force law 183—8 227
Antennas, about antennas 547—9 582
Antennas, arrays 567—74
Antennas, complex power density 561
Antennas, dipole: half-wave 564—7
Antennas, directivity and directive gain 558
Antennas, effective area/aperture 577 578
Antennas, efficiency 574—6
Antennas, electric/Hertzian dipole 552—9
Antennas, Friis equation/transmission formula 578—9
Antennas, gain 575
Antennas, linear 571—4
Antennas, magnetic 559—63
Antennas, near-zone fields 554—5
Antennas, normalized power 556
Antennas, pattern 556
Antennas, power: density 554 556—7
Antennas, radiation: fields 555—7
Antennas, receiving 576—9
Antennas, receiving power intercepted 578
Antennas, resistance 557
Antennas, short 563—4
Antennas, transmitting 547—9
Antennas, types of 547—8
Antennas, wave equations in terms of potential functions 549—52
Arrays 567—71
Arrays, broadside 573
Arrays, end-fire 574
Arrays, linear S 71—4
Arrays, normalized array pattern 569
Arrays, principle of pattern multiplication 569
Associative law of addition 16
assumptions 11
Attenuation constant 366
Attenuation constant with skin cffcct 488 9
Autotransformers 331—4
Back/counter emf 290
Backward-traveling waves 358
Bessel’s equation 487
Bessel’s functions 487
Betatron 334—6
Biot — Savart law 11 178—83 194 197 226
Bounce/lattice diagrams 476—8 480-5
Bound surface, charge density 96—7
Bound surface, current density 205
Bound volume, charge density 96—7
Bound volume, current density 205
boundary conditions 104—8
Boundary conditions and Maxwell’s equations 311—14 325
Boundary conditions for magnetic fields 211—15
Boundary conditions in phasor form 321—2
Boundary conditions, current density 157—9
Boundary conditions, Dirichlet 593—4
Boundary conditions, finite-difference method (FDM), computer-aided analysis 593—4
Boundary conditions, mixed 593—4
Boundary conditions, Neumann 593
Boundary conditions, normal components of the electric flux density 104—6
Boundary conditions, tangential components of the electric flux density 106—7
Boundless dielectric medium 359—62
Brewsters (polarization) angle 408—9
Broadside arrays 573
Capacitance 114—16 122
Capacitors/capacitance 108—12 122-3 167
Capacitors/capacitance and Laplace's equation 112—16 123
Capacitors/capacitance and Poissons equation 112—16
Capacitors/capacitance, coaxial cable 114—16 122 430
Capacitors/capacitance, definition 108—9
Capacitors/capacitance, parallel conducting plates 109 113—14 122
Capacitors/capacitance, parallel-plate transmission lines 428—9
Capacitors/capacitance, spherical capacitor 110—12 122
Cartesian coordinate system (see Rectangular/Cartesian coordinate systems)
Cathode-ray oscilloscope 243—6
Cavity resonators 504 532 541
Cavity resonators, characteristic impedance, transmission lines determination of 444—5
Cavity resonators, characteristic impedance, transmission lines lossy transmission lines 465—7
Cavity resonators, characteristic impedance, transmission lines, parallel-plate lines 433 434—5
Cavity resonators, power loss 537 9
Cavity resonators, quality factor 536—9
Cavity resonators, transverse electric (TE) mode 534—6
Cavity resonators, transverse magnetic (TM) mode 532—4
Charge, bound volume 96—7
Charge, density: bound surface 96—7
Charge, induced 93
Charge, line 76
Charge, point charges 72 (see also Current steady/direct)
Charge, surface 76
Charge, volume 76
Charged particles, deflection of 241 3 267
Child — Langmuir relation 156
Circuits, magnetic 216—26
Circularly polarized waves 373—9
coaxial cables 422
Coefficient of coupling 295—6
Commutative law of addition 16
Complex permittivity of a medium 364 411 505
Computer programs, finite-difference method (FDM) program 643—5
Computer programs, finite-element method (FEM) programs 645—59
Computer programs, method of moments (MOM) program 660—2
Computer-aided analysis, about computer-aided analysis 590
Computer-aided analysis, finite-difference method (FDM) 591 8
Computer-aided analysis, finite-element method (FEM) 598—611
Computer-aided analysis, method of moments (MOM) 611—14
Conducting medium, plane wave propagation in 363—70
Conduction 141—2
Conduction current 138—9
Conduction current, density 141—2
Conductor-conductor interface 380—5
Conductors/conductivity definition 142
Conductors/conductivity definition in electric fields 92—4 166
Conductors/conductivity definition, plane wave propagation in 363—73
Conductors/conductivity definition, resistivity/resistance 142—3 144-5
Conductors/conductivity definition, semiconductors 100
Conductors/conductivity definition, surface resistance 371—2
Conservation of energy, law of 316
Constant of proportionality, and Coulomb’s law 71 120
Constitutive equations 311
Continuity equation 3 8 145—50 166
Continuity equation, differential form 146
Continuity equation, integral form 146
Convection 140—1
Convection current 139—41
Convection current and resistivity 142—3 (see also Continuity equation)
Convection current in diodes 154—7
Convection current, density 140—1
Convection current, drift velocity 139 143
Convection current, electron mobility 141
Convection current, free electrons 138
Convection current, Joule s law 152—4
Convection current, relaxation time 150—2
Convection, about currents 137—8 166
Convection, ampere 137—8
Convection, analogy between D and J 159—62
Convection, electric/Hertzian dipole 552
Convection, induced 278
Convection, steady/direct 137—43
Convection, volume 159—62
Coordinate systems 20
Coulomb's gauge 60
Coulomb's law 6 70 4 120
Coulomb's law and the constant of proportionality 71
| Coulomb's law and the principle of superposition 72—3
Coulomb's law counter/back emf 290
Coulomb, Charles Augustin de 71
Coupled coils in a magnetic field 303—4
Coupled coils, inductance: parallel connection 300—1 337
Coupled coils, series connection 298—300 337
Cross product of two vectors 18—20 25 62
Curl of a vector field 49—55 62 195
Curl of a vector field in cylindrical and spherical coordinate systems 52
Curl of a vector field, irrotational/conservative vector field 52
Curl of a vector field, rotational vector field 52
Curl of a vector field, Stokes* theorem 53—5
Current, density: boundary conditions 157—9
Cutoff frequency, transverse magnetic (TM) wave operation, below and above 511—15
Cutoff frequency, waveguides transverse electric (TE) wave operation, below and above 521—4
Cyclotron 256—8 268
Cyclotron, frequency 255 268
cylindrical 23—7 35 36
Cylindrical coordinate systems 23 7
Cylindrical coordinate systems, differential volume element 35 36
Cylindrical coordinate systems, transformation of vectors 25—7
Cylindrical, rectangular/Cartesian 20—3
Cylindrical, spherical 28—32
Cylindrical, transformation of vectors 25—7 30-2
Definite integrals, list of 667—8
Deflection of a charged particle 241—3 267
Derivatives of functions 33
Diamagnetic materials 202
Dieiectric(s) (insulators) in electric fields 94—9
Dieiectric(s) (insulators), breakdown 98
Dieiectric(s) (insulators), constant 97—8
Dieiectric(s) (insulators), dielectric constants and diaiectric strengths of some materials 98
Dieiectric(s) (insulators), dielectric strength (definition) 98
Dieiectric(s) (insulators), ideal 95
Dieiectric(s) (insulators), isotropic and homogeneous materials 97
Dieiectric(s) (insulators), permittivity and relative permittivity 97—8
Dieiectric(s) (insulators), plane wave propagation in 353—62
Dieiectric(s) (insulators), polarization effects 97
Dieiectric(s) (insulators), resistivity 143
Dieiectric(s) (insulators), strength 98
Dielectric medium, boundless 359—62
Dielectric medium, plane waves in 353—62 374—5 385-92
Dielectric-conductor interface 390—2
Dielectric-dielectric interface 385—6 396—9 408-9
Dielectric-perfect conductor interface 387—90 399—406 409
Differential elements of length, surface and volume 34—6
Differential forms of equations 5—6
Diode, steady current 154—7
Dipole antenna, dipole moment 91
Dipole antenna, half-wave 564—7
Dipole antenna, magnetic 559—63
Dipole antenna, short 563—4
Dipole antenna, vector 90
Direct-current motor 265—7
Directional derivatives, scalar functions 43
Directive gain and directivity, antennas 558
Dirichlet boundary condition 593—4
Discontinuity points on lossless transmission lines 451—3
Dispersive medium 371
Divergence of vector field 44 9 62
Divergence, Theorem 5 46—9 63
Doppler effect, with radar 581
Dot product of vectors 17—18 21—2 25 62
Drift velocity, free electrons 139 143
Electric Dipole 89—92
Electric dipole, dipole moment 91
Electric field energy storage 100—4
Electric fields elliptically polarized waves 377—8
Electric fields, conductors in 92—4
Electric fields, Coulomb's law 70 4
Electric fields, due to charge distributions 76—7
Electric fields, electric dipole 89—92
Electric fields, electric potential 85—9
Electric fields, energy stored 100—4
Electric fields, equipotential surfaces 88
Electric fields, field equations 6
Electric fields, Gauss's law 3 6 82—5 121
Electric fields, induced 277
Electric fields, intensity 74—80
Electric fields, line charge density 76
Electric fields, method of images 116—20
Electric fields, permittivity of free space 82
Electric fields, point charges 72 101
Electric fields, polarization vector 95—6
Electric fields, semiconductors in 100
Electric fields, surface charge density 76
Electric fields, volume charge density 76 (see also Boundary conditions; dielectric(s) (insulators); time-varying electromagnetic fields)
Electric flux and electric flux density 81—5
Electric flux/electric flux density 81—5 105—6 120-1
Electric flux/electric flux density, definitions 82
Electric potential 85—9
Electric potential, potential difference 87
Electric susceptibility 97
Electric/Hertzian dipole 552—9
Electromagnetic flowmeter 264
Electromagnetic pump 264—5
Electromagnetic quantities, derived units 2
Electromagnets 183
electromotive force (EMF) 162—5 167
Electromotive force (emf), definition 279
Electromotive force (emf), induced 278—9
Electromotive force (emf), motional 276—82 336
Electromotive force (emf), transformers 285 (see also motional electromotive force (emf))
Electron mobility 141
Electrostatic generator 250—2
Electrostatic potential energy for a group of point charges 102
Electrostatic voltmeter 252—3 267-8
Electrostatics 70
Electrostatics, bound surface charge density 96 7
Electrostatics, bound volume charge dens:ty 96—7
Electrostatics, Coulomb's law 70—4
emf (see Electromotive force (emf))
End-fire arrays 574
Energy density 103—4
Energy density, electrostatic 103—4
Energy density, magnetic 215—16 228
Energy storage in a single coil 301—3
Energy storage in electric fields 100—4
Energy storage magnetic field: in coupled coils 303—4
Equation of continuity 3 8 145—50 166
Equation of continuity, differential form 146
Equation of continuity, integral form 146
Equations for 112—16
Equations for induced charges 93
Equations for method of images 116—20
Equations for potential energy of two point charges 101 (see also Boundary conditions Capacitors/capacitance)
Equipotential surfaces 88
Fabry — Perot resonator 389—90
Faraday. Michael 8
Faraday’s disc 281
Faraday’s law of induction 8 282—90
Faraday’s law of induction and Maxwell's equation 287 8
Faraday’s law of induction, definition 282
Ferromagnetic materials 202
Ferromagnetic materials, hysteresis 207—8
Ferromagnetic materials, magnetic domains 206—7
Ferromagnetic materials, magnetization characteristics of materials 207
ferromagnetism 206—9
Fields, class I (Laplace’s equation) 59
Fields, class II (Poisson's equation) 59
Fields, class III (Poisson's vector equation and Coulomb‘s gauge) 59—60
Fields, class IV (hydrodynamic fields) 60
Fields, concept 3—4
Fields, electrostatic field equations 6
Finite-difference method (FDM), boundary conditions 593—4
Finite-difference method (FDM), computer program for 643—5
Finite-difference method (FDM), computer-aided analysis 591—8
Finite-difference method (FDM), iterative solution 595—8
Finite-difference method (FDM), successive over-relaxation (SOR) method 596—8
Finite-element method (FEM), computer programs for 645—59
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