Introduction to electrodynamicsFeatures a clear, accessible treatment of the fundamentals of electromagnetic theory. Its lean and focused approach employs numerous examples and problems. Carefully discusses subtle or difficult points. Contains numerous, relevant problems within the book in addition to end of each chapter problems and answers. 
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Review: Introduction to Electrodynamics
User Review  Gaurav  GoodreadsDavid J. Griffiths is a magician. The way he writes his books is wonderfully unique as if he were delivering a public lecture, with all the tiny little jokes, while at the same time not missing out ... Read full review
Review: Introduction to Electrodynamics
User Review  Alexandra Elfers  GoodreadsFor a physics book this book is entertaining. I enjoyed the vast amount of time I spent with my nose buried in it attempting not to fail electrodynamics. Read full review
Contents
Vector Analysis  6 
Electrostatics  61 
Surface Charge  103 
Copyright  
10 other sections not shown
Common terms and phrases
Ampere's law angle answer assume atom axis BiotSavart law bound charge boundary conditions calculate capacitor charge density charge distribution charge q clock components conductor configuration conservation constant coordinates Coulomb Coulomb's law curl current density cylinder derivative direction distance divergence theorem electric and magnetic electric field electrodynamics electromagnetic electron electrostatics energy Example field inside Figure Find the electric Find the potential flux formula free charge frequency function Gauss's law gradient infinite infinitesimal Laplace's equation linear dielectric Lorentz force law Lorentz transformation magnetic dipole magnetic field magnetic force magnetostatics Maxwell's equations momentum motion moving origin particle perpendicular plane point charge polarization Poynting vector Problem radiation region relativistic relativity scalar Section shown in Fig solenoid Solution sphere of radius spherical steady current Suppose surface charge tion total charge V X B V X E vector potential velocity volume wave zero