Engineering ElectromagneticsNow in its Seventh Edition, Bill Hayt and John Buck's Engineering Electromagnetics is a classic book that has been updated for electromagnetics today. This widely respected book stresses fundamentals and problem solving, and discusses the material in an understandable, readable way. Numerous illustrations and analogies are provided to aid the reader in grasping difficult concepts. In addition, independent learning is facilitated by the presence of many examples and problems. Important updates and revisions have been included in this edition. One of the most significant changes is the repositioning and rewriting of the transmission lines chapter. This chapter is now ahead of the plane waves chapter, and can be used at any point in the course, including at the beginning. Book jacket. |
Contents
ELECTRIC FLUX DENSITY GAUSSS LAW | 59 |
CONDUCTORS DIELECTRICS AND CAPACITANCE | 127 |
6 | 134 |
Copyright | |
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Common terms and phrases
a₂ Ampère's circuital law amplitude apply assume axis Biot-Savart law boundary conditions capacitance capacitor cartesian coordinates Chap chapter charge density closed path closed surface coaxial component conducting conductor constant coordinate system Coulomb's law coulombs curl current density cylindrical coordinates defined dielectric differential dipole direction divergence dot product electric field intensity electric flux density electron energy equipotential surface expression filament force free space frequency Gauss's law H₂ inductance infinite Laplace's equation length line charge line integral located lossless magnetic potential magnitude material Maxwell's equations meter obtained plane wave point charge potential difference potential field Prob problem R₁ radius region result scalar shown in Fig spherical coordinates theorem total current transmission line uniform plane wave unit vector V₁ V₂ velocity voltage volume charge density wavelength Wb/m² zero μο ду дх