The Method of Moments in Electromagnetics
| Author | : | |
| Rating | : | 4.88 (721 Votes) |
| Asin | : | 1420061453 |
| Format Type | : | paperback |
| Number of Pages | : | 288 Pages |
| Publish Date | : | 2013-06-29 |
| Language | : | English |
DESCRIPTION:
The author covers a range of topics in this area, from the initial underpinnings of the MOM to its current applications. The final chapters examine the contemporary fast multipole method and describe some commonly used methods of numerical integration, including the trapezoidal rule, Simpson’s rule, area coordinates, and Gaussian quadrature on triangles. Subsequent chapters solve these integral equations for thin wires, bodies of revolution, and two- and three-dimensional problems. Responding to the need for a clear, up-to-date introduction to the field, The Method of Moments in Electromagnetics explores surface integral equations in electromagnetics and presents their numerical solution using the method of moments (MOM) technique. This book provides both the information needed to solve practical electromagnetic problems using the MOM and the knowledge necessary to understand more advanced topics in the field.. It provides the numerical implementation aspects at a nuts-and-bolts level while discussing integral equations and electromagnetic theory at a higher level. The text derives or summarizes the matrix elements used in every MOM problem and explains the approach used in and results of each example. He first reviews the frequency-domain electromagnetic
Tripoint Industries Inc., Harvest, Alabama, USA
About the Author Tripoint Industries Inc., Harvest, Alabama, USA
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I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general Excellent, Excellent, Excellent This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. D problems (chapter 7). There's a brief intro to fast multipole m. and Excellent, Excellent, Excellent This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), "Excellent, Excellent, Excellent" according to x. This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and Excellent, Excellent, Excellent This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general Excellent, Excellent, Excellent This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. D problems (chapter 7). There's a brief intro to fast multipole m. D problems (chapter 5), bodies of revolution (chapter 6), and general Excellent, Excellent, Excellent This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter Excellent, Excellent, Excellent x This text is truly excellent. It is a clear, concise, and up-to-date exposition on applying the method of moments to E&M problems. I like the approach of deriving the general integral equations and their solution via method of moments _first_ (chapters 2 and 3) and _then_ applying these to successively more complicated problems in subsequent chapters: thin wires (chapter 4), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. ), 2D problems (chapter 5), bodies of revolution (chapter 6), and general 3D problems (chapter 7). There's a brief intro to fast multipole m. D problems (chapter 7). There's a brief intro to fast multipole m. Very useful for applications, but numerous (generally minor) errors There is certainly some value to this book, but there are also many problems--mostly due to the typos, which are abundant, but generally minor (missing dots for dot products, sign errors, doubled words). In derivations these typos usually occur at intermediate steps, but the final steps generally recover from these errors. For the well-versed, this is not terribly problematic, but I imagine it's confusing for the student seeing it for the first time.From an analytical/theoretical standpoint, the value of this