Introduction to ElectrodynamicsThe first edition of this textbook (1981) is cited in BCL3. The second includes: introduction to the Dirac Delta Function, the Helmholtz Theorem, and a brief treatment of waveguides. New problems have been added. No bibliography. Annotation copyright Book News, Inc. Portland, Or. |
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Page iv
... Charge Distributions 2.2 Divergence and Curl of Electrostatic Fields 48 51 64 68 2.2.1 Field Lines and Gauss's Law ... Distribution 2.3.5 Summary ; Electrostatic Boundary Conditions 85 85 89 2.4 Work and Energy in Electrostatics 92 2.4.1 The ...
... Charge Distributions 2.2 Divergence and Curl of Electrostatic Fields 48 51 64 68 2.2.1 Field Lines and Gauss's Law ... Distribution 2.3.5 Summary ; Electrostatic Boundary Conditions 85 85 89 2.4 Work and Energy in Electrostatics 92 2.4.1 The ...
Page 94
... : p = 0V.E , SO W = € 0 ( V. E ) V dr 2 Now product rule number 5 ( front cover ) says that · = V ( EV ) ( VE ) V + E⚫ ( VV ) On the other hand , VV - E , so 94 Chapter 2 Electrostatics The Energy of a Continuous Charge Distribution.
... : p = 0V.E , SO W = € 0 ( V. E ) V dr 2 Now product rule number 5 ( front cover ) says that · = V ( EV ) ( VE ) V + E⚫ ( VV ) On the other hand , VV - E , so 94 Chapter 2 Electrostatics The Energy of a Continuous Charge Distribution.
Page 156
... charge distribution p1 produces a potential V1 ( r ) , and some other charge distribution p2 produces a potential V2 ( r ) . ( The two situations may have nothing in common , for all I care — perhaps number 1 is a uniformly charged ...
... charge distribution p1 produces a potential V1 ( r ) , and some other charge distribution p2 produces a potential V2 ( r ) . ( The two situations may have nothing in common , for all I care — perhaps number 1 is a uniformly charged ...
Contents
Special Techniques for Calculating | 3 |
Vector Analysis | 6 |
Electrostatics | 61 |
Copyright | |
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Ampère's law angle answer atom axis Biot-Savart law bound charge boundary conditions calculate charge density charge q components conductor constant coordinates Coulomb's law cross product curl cylinder derivative direction distance divergence theorem dot product electric and magnetic electric field electrodynamics electromagnetic electron electrostatics energy Example field inside Figure Find the potential flux formula free charge frequency Gauss's law gradient infinite infinitesimal Laplace's equation line integral loop Lorentz force law 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 scalar Section shown in Fig solenoid Solution speed sphere of radius spherical Suppose surface charge tion total charge transformation uniform unit vector vector potential velocity volume wave wire zero Απερ μο ду дх