โ Scribed by Paul Lorrain, Dale R. Corson
No coin nor oath required. For personal study only.
Since its original publication in 1962, Lorrain and Corson's text has offered physics and engineering students a formula for developing a working knowledge of the basic principles of electromagnetism. The formula is practice.
Contents......Page 2
Index......Page 376
Formulas......Page 383
1 - Vector Operators......Page 4
2 - Phasors......Page 18
3 - Coulomb's Law and Gauss's Law......Page 25
4 - The equations of Poisson and Laplace. Charge conservation. Conductors......Page 36
5 - Electric Multipoles......Page 46
6 - Energy, Capacitance, and Forces......Page 54
7 - Electric Circuits A: RC Circuits......Page 63
8 - Electric Circuits B: Circuit Theorems......Page 78
9 - Dielectric Materials A: Bound Charges and Electric Flux Density D......Page 90
10 - Dielectric Materials B: Real Dielectrics, Continuity Conditions at an Interface, and Stored Energy......Page 100
11 - Images. Laplace's Equation in Rectangular Coordinates......Page 109
12 - Laplace's Equation in Spherical Coordinates. Poisson's Equation for E......Page 116
13 - The Lorentz Transformation and Space-Time......Page 123
14 - The Lorentz Contraction and Time Dilation. The Transformation of a Velocity......Page 129
15 - Mass. Momentum, Force, and Energy......Page 136
16 - The Field of a Moving Charge......Page 146
17 - Maxwell's Equations. The Four-Potential A......Page 158
18 - The Magnetic Flux Density B and the Vector Potential A......Page 167
19 - The Vector Potential A. Ampere's Circuital Law......Page 178
20 - Magnetic Materials A: The Magnetic Flux Density B and the Magnetic Field Strength H......Page 184
21 - Magnetic Materials B: Ferromagnetism and Magnetic Circuits......Page 191
22 - The Magnetic Forces on Charges and Currents......Page 197
23 - The Faraday Induction Law......Page 210
24 - Electric Circuits C. Mutual and Self-Inductance......Page 222
25 - Electric Circuits D: Inductivev Circuits and Transformers......Page 230
26 - Magnetic Energy and Macroscopic Magnetic Forces......Page 239
27 - MAXWELL EQUATIONS......Page 250
28 - Uniform Plane Waves in Free Space, in Nonconductors, and in Conductors......Page 261
29 - Waves in Good Conductors and in Plasmas......Page 272
30 - Reflection and Refraction A: The Basic Laws and Fresnel's Equations......Page 281
31 - Reflection and Refraction B: Nonuniform Plane Waves and Total Reflection......Page 293
32 - Reflection and Refraction C: Reflection and Refraction at the Surface of a Good Conductor......Page 301
33 - Guided Waves: General Principles. The Coaxial and Microstrip Lines......Page 309
34 - The Hollow Rectangular Waveguide......Page 317
35 - The Planar Optical Waveguide A: The Eigenvalue Equation......Page 327
36 - The Planar Optical Waveguide B: The Guided Wave......Page 335
37 - The Potentials V and A, and the Fields E and B......Page 341
38 - The Electric Dipole Transmitting Antenna......Page 350
39 - The Half-Wave Antenna, Antenna Arrays, and the Magnetic Dipole Antenna......Page 360
๐ SIMILAR VOLUMES
Since its original publication in 1962, Lorrain and Corson's text has offered physics and engineering students a formula for developing a working knowledge of the basic principles of electromagnetism. The formula is practice.
Since its original publication in 1962, Lorrain and Corson's text has offered physics and engineering students a formula for developing a working knowledge of the basic principles of electromagnetism. The formula is practice.
<p><span>This book leads students to learn electromagnetism and then moves to chapters about electric circuits. It aims to give an understanding of electromagnetism which gives a fast way to master the features of circuit elements such as resistors, capacitors, and coils that compose electric circui
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