Electricity and MagnetismA text for the standard electro-magnetism course for students in physics and engineering. Treats requisite theory with extensive examples of real-world applications. Offers coverage of topics neglected in most texts at this level, such as macroscopic vs. microscopic properties of matter. Also features a shorter, more student-oriented presentaton of the material, larger problem sets, and thorough discussion of alternative solution methods. |
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Page x
... Electrostatic Shielding 118 3.8 Summary 120 FOUR : FORMAL THEORY OF DIELECTRIC ELECTROSTATICS Polarization and Dipole Moment Density 4.1 4.2 Fields Due to a Dielectric Medium 4.3 Gauss ' Law for Dielectrics 4.4 The Equations of ...
... Electrostatic Shielding 118 3.8 Summary 120 FOUR : FORMAL THEORY OF DIELECTRIC ELECTROSTATICS Polarization and Dipole Moment Density 4.1 4.2 Fields Due to a Dielectric Medium 4.3 Gauss ' Law for Dielectrics 4.4 The Equations of ...
Page 181
... electrostatic energy of various charge distributions . These include an assembly of point charges , con- tinuous charge distributions , and charged conductors . We ... ELECTROSTATIC ENERGY Electrostatic Energy of an Assembly of Point Charges.
... electrostatic energy of various charge distributions . These include an assembly of point charges , con- tinuous charge distributions , and charged conductors . We ... ELECTROSTATIC ENERGY Electrostatic Energy of an Assembly of Point Charges.
Page 194
... electrostatic applications is as receptacle of electrostatic energy . In order to charge up a capacitor , work must be done to move the charge against the electrostatic forces present . Because electrostatic forces are conservative ...
... electrostatic applications is as receptacle of electrostatic energy . In order to charge up a capacitor , work must be done to move the charge against the electrostatic forces present . Because electrostatic forces are conservative ...
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angle applied assume atoms axis becomes boundary conditions calculated called capacitor charge density charge distribution circuit coefficients components conducting conductor Consider constant continuous coordinates cylinder defined dependence derived Determine dielectric difference dipole direction discussed distance distribution effect electric field electrostatic element energy equal equation Example exists expression external fact Figure flux follows force frequency function given gives hence implies incidence inductance inside integral interface length loop magnetic field material medium method moving normal observer obtain origin parallel placed plane plates point charge polarization potential problem produced properties radiation radius reflection region relation resistance respectively result satisfy scalar shown in Fig solution solved space sphere spherical Substituting surface surface charge transformation unit vector volume wave wire write zero