Introduction to ElectrodynamicsFor junior/senior-level electricity and magnetism courses. This book is known for its clear, concise and accessible coverage of standard topics in a logical and pedagogically sound order. The Third Edition features a clear, accessible treatment of the fundamentals of electromagnetic theory, providing a sound platform for the exploration of related applications (ac circuits, antennas, transmission lines, plasmas, optics, etc.). Its lean and focused approach employs numerous examples and problems. |
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Page 24
... Integral Calculus 1.3.1 Line , Surface , and Volume Integrals In electrodynamics we encounter several different kinds of integrals , among which the most important are line ( or path ) integrals , surface integrals ( or flux ) , and volume ...
... Integral Calculus 1.3.1 Line , Surface , and Volume Integrals In electrodynamics we encounter several different kinds of integrals , among which the most important are line ( or path ) integrals , surface integrals ( or flux ) , and volume ...
Page 30
... line integral ) of a derivative ( here the gradient ) is given by the value of the function at the boundaries ( a ... line integrals ordinarily depend on the path taken from a to b . But the right side of Eq . 1.55 makes no reference to ...
... line integral ) of a derivative ( here the gradient ) is given by the value of the function at the boundaries ( a ... line integrals ordinarily depend on the path taken from a to b . But the right side of Eq . 1.55 makes no reference to ...
Page 34
... integral - specifically , a closed line integral . Geometrical Interpretation : Recall that the curl measures the " twist " of the vectors v ; a region of high curl is a whirlpool — if you put a tiny paddle wheel there , it will rotate ...
... integral - specifically , a closed line integral . Geometrical Interpretation : Recall that the curl measures the " twist " of the vectors v ; a region of high curl is a whirlpool — if you put a tiny paddle wheel there , it will rotate ...
Contents
Vector Analysis | 1 |
Spherical Polar Coordinates | 38 |
Electrostatics | 58 |
Copyright | |
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Ampère's law angular answer atom axis Biot-Savart law bound charge boundary conditions calculate capacitor charge density charge distribution charge q components conductor configuration constant coordinates Coulomb's law curl cylinder derivative direction distance divergence theorem electric and magnetic electric field electrodynamics electromagnetic electron electrostatics energy Example field inside Figure Find the electric Find the potential flux formula free charge frequency function Gauss's law gradient infinite Laplace's equation line integral Lorentz force law magnetic dipole magnetic field magnetic force magnetostatics Maxwell's equations momentum motion moving particle perpendicular Phys plane point charge polarization Poynting vector Prob Problem radiation region relativistic scalar Sect shown in Fig solenoid Solution speed spherical steady current Suppose surface charge total charge unit vector potential velocity volume wave wire zero Απ Απερ μο ду