- Electric fields are easily shielded or weakened by walls and other objects, whereas magnetic fields can pass through buildings, living things, and most other materials. Electric and magnetic fields together are referred to as electromagnetic fields, or EMFs. The electric and magnetic forces in EMFs are caused by electromagnetic radiation.
- Engineering Electromagnetic Fields And Waves 2nd Edition Pdf.pdf - Free download Ebook, Handbook, Textbook, User Guide PDF files on the internet quickly and easily.
Electromagnetic Fields and Waves - Magdy F. Iskander - Text.pdf. Inggi Ramadhani. Download with Google Download with Facebook or download with email. Electromagnetic Fields and Waves - Magdy F. Iskander - Text.pdf. Electromagnetic Fields and Waves - Magdy F. Iskander - Text.pdf.
Electromagnetic Field Theory as one file: (PDF 1 of 3 - 3.9MB)(PDF 2 of 3 - 3.2MB)(PDF 3 of 3 - 3.3MB)
Electromagnetic Field Theory Textbook Components
TEXTBOOK CONTENTS | FILES |
---|---|
Front-End Matter | |
Title page (PDF) Dedication (PDF) Preface (PDF) Note to the student and instructor (PDF) Table of contents, ix-xix (PDF) Title page 2 (PDF) Solutions to selected problems, pp. 699-710 (PDF) Index, pp. 711-723 (PDF) Useful equations and constants (PDF) | |
Chapter 1: Review of Vector Analysis, pp. 1-48 (PDF) | |
1.1 Coordinate systems, pp. 2-7 1.2 Vector Algebra, pp. 7-16 1.3 The gradient and the del operator, pp. 16-21 1.4 Flux and divergence, pp. 21-28 1.5 The Curl and Stokes' theorem, pp. 28-39 Problems, pp. 39-48 | Sections 1.1-1.5 (PDF) Problems (PDF) |
Chapter 2: The Electric Field, pp. 49-134 (PDF - 8MB) | |
2.1 Electric charge, pp. 50-54 2.2 The Coulomb force law between stationary charges, pp. 54-59 2.3 Charge distributions, pp. 59-72 2.4 Gauss's law, pp. 72-84 2.5 The electric potential, pp. 84-93 2.6 The method of images with line charges and cylinders, pp. 93-103 2.7 The method of images with point charges and spheres, pp. 103-110 Problems, pp. 110-134 | Sections 2.1-2.7 (PDF) Problems (PDF - 2.7MB) |
Chapter 3: Polarization and Conduction, pp. 135-256 (PDF - 1.9MB) | |
3.1 Polarization, pp. 136-152 3.2 Conduction, pp. 152-161 3.3 Field boundary conditions, 161-169 3.4 Resistance, pp. 169-173 3.5 Capacitance, pp. 173-181 3.6 Lossy media, pp. 181-197 3.7 Field-dependent space charge distributions, pp. 197-204 3.8 Energy stored in a dielectric medium, pp. 204-213 3.9 Fields and their forces, pp. 213-223 3.10 Electrostatic generators, pp. 223-231 Problems, pp. 231-256 | Sections 3.1-3.10 (PDF - 1.4MB) Problems (PDF) |
Chapter 4: Electric Field Boundary Value Problems, pp. 257-312 (PDF) | |
4.1 The uniqueness theorem, pp. 258-259 4.2 Boundary value problems in Cartesian geometries, pp. 259-271 4.3 Separation of variables in cylindrical geometry, pp. 271-284 4.4 Product solutions in spherical geometry, pp. 284-297 4.5 A numerical method-successive relaxation, pp. 297-301 Problems, pp. 301-312 | Sections 4.1-4.5 (PDF) Problems (PDF) |
Chapter 5: The Magnetic Field, pp. 313-392 (PDF - 1.2MB) | |
5.1 Forces on moving charges, pp. 314-322 5.2 Magnetic field due to currents, pp. 322-332 5.3 Divergence and curl of the magnetic field, pp. 332-336 5.4 The vector potential, pp. 336-343 5.5 Magnetization, pp. 343-359 5.6 Boundary conditions, pp. 359-361 5.7 Magnetic field boundary value problems, pp. 361-368 5.8 Magnetic fields and forces, pp. 368-375 Problems, pp. 375-392 | Sections 5.1-5.8 (PDF) Problems (PDF) |
Chapter 6: Electromagnetic Induction, pp. 393-486 (PDF - 2.7MB) | |
6.1 Faraday's law of induction, pp. 395-405 6.2 Magnetic circuits, pp. 405-417 6.3 Faraday's law for moving media, pp. 417-435 6.4 Magnetic diffusion into an ohmic conductor, pp. 435-451 6.5 Energy stored in the magnetic field, pp. 451-460 6.6 The energy method for forces, pp. 460-465 Problems, pp. 465-486 | Sections 6.1-6.6 (PDF - 1.1MB) Problems (PDF) |
Chapter 7: Electrodynamics-Fields and Waves, pp. 487-566 (PDF - 1.2MB) | |
7.1 Maxwell's equations, pp. 487-490 7.2 Conservation of energy, pp. 490-496 7.3 Transverse electromagnetic waves, pp. 496-505 7.4 Sinusoidal time variations, pp. 505-520 7.5 Normal incidence onto a perfect conductor, pp. 520-522 7.6 Normal incidence onto a dielectric, pp. 522-529 7.7 Uniform and nonuniform plane waves, pp. 529-534 I know everyone has to move on and MS has to make money but I just recently recovered (I hope) from downloading some malware wrapping vs 2010 express from a disreputable site BECAUSE I didn't find a linkto an official version on MSDN. Perhaps someone will show a link to vs 2010 express download or to a link explaining that vs2010 expressWILL NOT BE OFFICIALLY Downloadable anymore. Microsoft visual studio 2010 free. I'm searching for vs 2010 express and keep getting routed to vs 2015. 7.8 Oblique incidence onto a perfect conductor, pp. 534-538 7.9 Oblique incidence onto a dielectric, pp. 538-544 7.10 Applications to optics, pp. 544-552 Problems, pp. 552-566 | Sections 7.1-7.10 (PDF) Problems (PDF) |
Chapter 8: Guided Electromagnetic Waves, pp. 567-662 (PDF - 1.6MB) | |
8.1 The transmission line equations, pp. 568-579 8.2 Transmission line transient waves, pp. 579-595 8.3 Sinusoidal time variations, pp. 595-607 8.4 Arbitrary impedance terminations, pp. 607-620 8.5 Stub tuning, pp. 620-629 8. Easy dvd creator download. 6 The rectangular waveguide, pp. 629-644 8.7 Dielectric waveguide, pp. 644-649 Hp color laserjet 4700n driver download. Problems, pp. 649-662 | Sections 8.1-8.7 (PDF - 1.5MB) Problems (PDF) |
Chapter 9: Radiation, pp. 663-698 (PDF - 3.8MB) | |
9.1 The retarded potentials, pp. 664-667 9.2 Radiation from point dipoles, pp. 667-681 9.3 Point dipole arrays, pp. 681-687 9.4 Long dipole antennas, pp. 687-694 Problems, pp. 695-698 | Sections 9.1-9.4 (PDF) Problems (PDF) |
Recommended Citation
For any use or distribution of this textbook, please cite as follows:
Markus Zahn, Electromagnetic Field Theory. (Massachusetts Institute of Technology: MIT OpenCourseWare). http://ocw.mit.edu (accessed MM DD, YYYY). License: Creative Commons Attribution-NonCommercial-Share Alike.
Welcome!
This OCW supplemental resource provides material from outside the official MIT curriculum.
Electromagnetic Fields And Waves Pdf File
MIT OpenCourseWare is a free & open publication of material from thousands of MIT courses, covering the entire MIT curriculum.
No enrollment or registration. Freely browse and use OCW materials at your own pace. There's no signup, and no start or end dates.
Electromagnetic Fields And Waves Pdf Download
Knowledge is your reward. Use OCW to guide your own life-long learning, or to teach others. We don't offer credit or certification for using OCW.
Made for sharing. Download files for later. Send to friends and colleagues. Modify, remix, and reuse (just remember to cite OCW as the source.)
Learn more at Get Started with MIT OpenCourseWare