Numerical Techniques in Electromagnetics with MATLAB, Third Edition

Name: Numerical Techniques in Electromagnetics with MATLAB, Third Edition
Availability: InStock
ISBN: 9781420063097

ISBN-10: 142006309X

ISBN-13: 9781420063097

Edition: 3rd 2009 (Revised)

Authors: Matthew N. O. Sadiku

List price: $170.00

This item qualifies for FREE shipping.

30 day, 100% satisfaction guarantee!

Semester Rental: $24.74 Due date: 8/14/2024

Rental notice: supplementary materials (access codes, CDs, etc.) are not guaranteed with rental orders.

Buy new: $86.16

Marketplace

3 new & used from $29.91

what's this?

Rush Rewards U
Members Receive:

You have reached 400 XP and carrot coins. That is the daily max!

Description:

This third edition of the bestseller updates the text to help the reader pose, numerically analyze, and solve electromagnetic (EM) problems. This version converts outdated Fortran code into MATLAB and includes an appendix on how to use the new language. Again, this book expands the readers problem-solving skills using available numerical methods. Topics include fundamental concepts in EM; numerical methods; finite difference methods; variational methods, including moment methods and finite element methods; transmission-line matrix or modeling (TLM); and Monte Carlo methods. The books simple presentation of ideas makes it ideal for teaching or self-study.

Book details

List price: $170.00
Edition: 3rd
Copyright year: 2009
Publisher: CRC Press LLC
Publication date: 4/9/2009
Binding: Hardcover
Pages: 648
Size: 6.42" wide x 9.57" long x 1.54" tall
Weight: 2.530
Language: English

Matthew N. O. Sadiku is a professor at Prairie View A & M University, Prairie View, Texas. Before joining Prairie View, he taught at Florida Atlantic University, Boca Raton and Temple University, Philadelphia. He is the author of over 240 professional articles and over 50 books including Secrets of Successful Marriages, How to Discover God's Will for Your Life, and commentaries on Romans, Ephesians, and Galatians. His books are used worldwide, and some of them have been translated into French, Korean, Chinese, Italian, and Spanish. He can be reached via email at sadiku@ieee.org



Fundamental Concepts Introduction Review of Electromagnetic Theory Classification of EM Problems


Some Important Theorems


Analytical Methods Introduction


Separation of Variables


Separation of Variables in Rectangular Coordinates


Separation of Variables in Cylindrical Coordinates


Separation of Variables in Spherical Coordinates


Some Useful Orthogonal Functions


Series Expansion


Practical Applications


Attenuation Due to Raindrops


Concluding Remarks


Finite Difference Methods Introduction


Finite Difference Schemes


Finite Differencing of Parabolic PDEs


Finite Differencing of Hyperbolic PDEs


Finite Differencing of Elliptic PDEs


Accuracy and Stability of FD Solutions


Practical Applications I G++ Guided Structures


Practical Applications II G++ Wave Scattering (FDTD)


Absorbing Boundary Conditions for FDTD


Finite Differencing for Nonrectangular Systems


Numerical Integration


Concluding Remarks


Variational Methods Introduction


Operators in Linear Spaces


Calculus of Variations


Construction of Functionals from PDEs


RayleighG++Ritz Method


Weighted Residual Method


Eigenvalue Problems


Practical Applications


Concluding Remarks


Moment Methods Introduction


Integral Equations


GreenG++s Functions


Applications I G++ Quasi-Static Problems


Applications II G++ Scattering Problems


Applications IIIG++ Radiation Problems


Applications IV G++ EM Absorption in the Human Body Concluding Remarks


Finite Element Method Introduction


Solution of LaplaceG++s Equation


Solution of PoissonG++s Equation


Solution of the Wave Equation


Automatic Mesh Generation I G++


Rectangular Domains Automatic


Mesh Generation II G++ Arbitrary Domains Bandwidth Reduction