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 159
... result . The potential difference Ap between the capacitor plates as given by ( 6-38 ) will be = Ap = √ E⋅ ds = Eo · ds ΑΦΟ + Ke Ke ( 10-72 ) + as in the special result ( 10-63 ) . We note that this result is consistent with our ...
... result . The potential difference Ap between the capacitor plates as given by ( 6-38 ) will be = Ap = √ E⋅ ds = Eo · ds ΑΦΟ + Ke Ke ( 10-72 ) + as in the special result ( 10-63 ) . We note that this result is consistent with our ...
Page 163
... result was obtained by using very general properties of the charge distributions on conductors , and thus is generally true whether there are dielectrics present or not ; this same result was also obtained by using only general ...
... result was obtained by using very general properties of the charge distributions on conductors , and thus is generally true whether there are dielectrics present or not ; this same result was also obtained by using only general ...
Page 339
... result of Exercise 17-6 and gives us AB = RAQ / S thus enabling us to evaluate AB . In this way , the curve describing the induction B as a function of H can be obtained as the result of a series of small steps . When a procedure like ...
... result of Exercise 17-6 and gives us AB = RAQ / S thus enabling us to evaluate AB . In this way , the curve describing the induction B as a function of H can be obtained as the result of a series of small steps . When a procedure like ...
Contents
INTRODUCTION | 1 |
ELECTRIC MULTIPOLES | 8 |
THE VECTOR POTENTIAL | 16 |
Copyright | |
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Common terms and phrases
Ampère's law angle assume axes axis bound charge boundary conditions bounding surface calculate capacitance charge density charge distribution charge q circuit conductor consider const constant corresponding Coulomb's law curve cylinder dielectric dipole direction distance divergence theorem E₁ electric field electromagnetic electrostatic energy equation evaluate example expression field point free charge function given induction infinitely long integral integrand Laplace's equation line charge line integral located magnetic magnitude Maxwell's equations obtained origin P₁ perpendicular point charge polarized position vector potential difference quadrupole R₁ region result scalar potential Section shown in Figure sphere of radius spherical surface charge surface charge density surface integral tangential components theorem total charge vacuum vector potential velocity volume wave write written xy plane zero Απερ дх