Foundations of Electricity and Magnetism |
Contents
CHARGED PARTICLE IN AN ELECTROMAGNETIC FIELD | 8 |
FUNDAMENTAL RELATION BETWEEN E AND B 24 | 24 |
Chapter 3 | 38 |
Copyright | |
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Common terms and phrases
acceleration amperian current amperian surface current angle Assume axis boundary conditions capacitor charge density charge q charged particle component conductor constant coordinates Coulomb's law curl cylindrical D lines Derive dielectric direction distance E field electric field electromagnetic wave electron electrostatic element elementary elementary charge equal equivalent expression field energy field vectors fixed frame flux frequency Gauss H₁ Hence impedance inductance integral Kirchhoff's lines loop Lorentz force magnetic dipole magnetic moment Maxwell's equations Maxwell's first equation medium motion moving frame Norton's theorems obtain Ohm's law parallel path plane plates point charge polarization pole potential Poynting vector Poynting's theorem problem produced R₁ radius resistance resonance scalar shown in Fig solenoid solution speed surface charge theorem Thévenin's theorem torque transformations uniform uniformly magnetized sphere unit vector velocity voltage volts wire zero дх