Preface v
 Introduction vii
 Part I Electrostatics
Basic Laws of Electrostatics (1001--1023) 3 (23)
Electrostatic Field in a Conductor 26 (22)
(1024--1042)
Electrostatic Field in a Dielectric Medium 48 (24)
(1043--1061)
Typical Methods for Solution of Electrostatic 72 (48)
Problems---Separation of Variables, Methods
of Images, Green's Function and Multipole
Expansion (1062--1095)
Miscellaneous Applications (1096--1108) 120(27)
 Part II Magnetostatic Field and
 Quasi-Stationary Electromagnetic Fields
Magnetic Field of Currents (2001--2038) 147(46)
Electromagnetic Induction (2039--2063) 193(27)
Action of Electromagnetic Field on 220(40)
Current-Carrying Conductors and Charged
Particles (2064--2090)
Miscellaneous Applications (2091--2119) 260(55)
 Part III Circuit Analysis
Basic Circuit Analysis (3001--3026) 315(35)
Electric and Magnetic Circuits (3027--3044) 350(17)
Analog Circuits (3045--3057) 367(12)
Digital Circuits (3058--3065) 379(6)
Nuclear Electronics (3066--3082) 385(19)
Miscellaneous Problems (3083--3090) 404(19)
 Part IV Electromagnetic Waves
Plane Electromagnetic Waves (4001--4009) 423(16)
Reflection and Refraction of Electromagnetic 439(33)
Waves on Interface between Two Media
(4010--4024)
Propagation of Electromagnetic Waves in a 472(39)
Medium (4025--4045)
Electromagnetic Radiation and Radiating 511(42)
Systems (4046--4067)
 Part V Relativity, Particle-Field Interactions
The Lorentz Transformation (5001--5017) 553(27)
Electromagnetic Field of a Charged Particle 580(18)
(5018--5025)
Motion of a Charged Particle in 598(32)
Electromagnetic Field (5026--5039)
Scattering and Dispersion of Electromagnetic 630(29)
Waves (5040--5056)
 Index to Problems 659