Electromagnetic FieldsThis revised edition provides patient guidance in its clear and organized presentation of problems. It is rich in variety, large in number and provides very careful treatment of relativity. One outstanding feature is the inclusion of simple, standard examples demonstrated in different methods that will allow students to enhance and understand their calculating abilities. There are over 145 worked examples; virtually all of the standard problems are included. |
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Page xiii
... Properties of Matter B - 1 Static Electric Properties 590 593 593 B - 2 Static Magnetic Properties 600 B - 3 Response to Time - Varying Fields 609 Answers to Odd - Numbered Exercises 616 Index 624 Electromagnetic Fields Introduction ...
... Properties of Matter B - 1 Static Electric Properties 590 593 593 B - 2 Static Magnetic Properties 600 B - 3 Response to Time - Varying Fields 609 Answers to Odd - Numbered Exercises 616 Index 624 Electromagnetic Fields Introduction ...
Page 3
... properties in general before we meet specific examples . Using the notation and terminology that has been developed for this purpose enables us to state our results more compactly and to understand their basic physical significance more ...
... properties in general before we meet specific examples . Using the notation and terminology that has been developed for this purpose enables us to state our results more compactly and to understand their basic physical significance more ...
Page 593
... properties of its constituents as well as on its state of aggregation , whether solid , liquid , or gas . In this appendix we consider some of the principal features that are involved ... Properties of Matter B-1 Static Electric Properties.
... properties of its constituents as well as on its state of aggregation , whether solid , liquid , or gas . In this appendix we consider some of the principal features that are involved ... Properties of Matter B-1 Static Electric Properties.
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Ampère's law angle assume axis becomes bound charge boundary conditions bounding surface calculate capacitance capacitor charge density charge distribution charge q circuit conductor consider constant coordinates corresponding Coulomb's law current density curve cylinder defined dielectric dipole direction displacement distance E₁ electric field electromagnetic electrostatic energy equal evaluate example Exercise expression field point flux force free charge free currents frequency function given induction infinitely long integral integrand k₂ Laplace's equation located Lorentz transformation magnetic magnitude material Maxwell's equations normal components obtained origin parallel particle perpendicular plane wave plates point charge polarized position vector potential difference quadrupole quantities radiation radius rectangular region result satisfy scalar scalar potential shown in Figure solenoid sphere spherical tangential components unit vacuum vector potential velocity volume write written xy plane zero Απερ дх Мо