COMPUTATIONAL ELECTROMAGNETICS BONDESON PDF

About this book Introduction Computational Electromagnetics is a young and growing discipline, expanding as a result of the steadily increasing demand for software for the design and analysis of electrical devices. This book introduces three of the most popular numerical methods for simulating electromagnetic fields: the finite difference method, the finite element method and the method of moments. To reach this goal, convergence analysis, extrapolation, von Neumann stability analysis, and dispersion analysis are introduced and used frequently throughout the book. Another major goal of the book is to provide students with enough practical understanding of the methods so they are able to write simple programs on their own.

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The final prices may differ from the prices shown due to specifics of VAT rules About this Textbook Computational Electromagnetics is a young and growing discipline, expanding as a result of the steadily increasing demand for software for the design and analysis of electrical devices. This book introduces three of the most popular numerical methods for simulating electromagnetic fields: the finite difference method, the finite element method and the method of moments.

To reach this goal, convergence analysis, extrapolation, von Neumann stability analysis, and dispersion analysis are introduced and used frequently throughout the book. Another major goal of the book is to provide students with enough practical understanding of the methods so they are able to write simple programs on their own.

To achieve this, the book contains several MATLAB programs and detailed description of practical issues such as assembly of finite element matrices and handling of unstructured meshes. Finally, the book aims at making the students well-aware of the strengths and weaknesses of the different methods, so they can decide which method is best for each problem. The intended audience of this text consists of undergraduate and beginning graduate students with basic knowledge of electromagnetic field theory, numerical analysis, and MATLAB-programming.

Reviews From the reviews: "This book is an introductory textbook on computational electromagnetics. It is volume number 51 in the series Texts in Applied Mathematics, which encourages the teaching of new courses. The prerequisites are basic electromagnetic field theory, numerical analysis, and computer programming.

This is followed by a brief chapter on numerical error, resolution, convergence, and extrapolation. Next, finite difference approximations of partial differential equations are presented. Some electromagnetic eigenvalue problems are discussed in the following chapter.

With this foundation, the authors devote most of the rest of the book to three widely used methods in computational electromagnetics: the finite-difference time-domain method, the finite element method, and the method of moments.

The final chapter contains a brief description of some of the other approaches to CEM and discusses some of the strengths and weaknesses of the various methods. Chapter sections generally end with some review questions, while chapters generally end with a summary, and some problems and computer projects.

The well-written monograph is devoted to students at the undergraduate level, but is also useful for practising engineers. The material is closely related to the course that Professor Anders Bondeson taught at Chalmers University in Sweden …. Review questions, problems, and computer projects at the end of each chapter are helpful, and the MATLAB code included in the text is definitely a plus.

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Computational Electromagnetics

This book introduces three of the most popular numerical methods for simulating electromagnetic fields: the finite difference method, the finite element method and the method of moments. To reach this goal, convergence analysis, extrapolation, von Neumann stability analysis, and dispersion analysis are introduced and used frequently throughout the book. Another major goal of the book is to provide students with enough practical understanding of the methods so they are able to write simple programs on their own. To achieve this, the book contains several MATLAB programs and detailed description of practical issues such as assembly of finite element matrices and handling of unstructured meshes. Finally, the book aims at making the students well-aware of the strengths and weaknesses of the different methods, so they can decide which method is best for each problem. The intended audience of this text consists of undergraduate and beginning graduate students with basic knowledge of electromagnetic field theory, numerical analysis, and MATLAB-programming.

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Computational Electromagnetics(Anders Bondeson).pdf

The final prices may differ from the prices shown due to specifics of VAT rules About this Textbook Computational Electromagnetics is a young and growing discipline, expanding as a result of the steadily increasing demand for software for the design and analysis of electrical devices. This book introduces three of the most popular numerical methods for simulating electromagnetic fields: the finite difference method, the finite element method and the method of moments. To reach this goal, convergence analysis, extrapolation, von Neumann stability analysis, and dispersion analysis are introduced and used frequently throughout the book. Another major goal of the book is to provide students with enough practical understanding of the methods so they are able to write simple programs on their own. To achieve this, the book contains several MATLAB programs and detailed description of practical issues such as assembly of finite element matrices and handling of unstructured meshes. Finally, the book aims at making the students well-aware of the strengths and weaknesses of the different methods, so they can decide which method is best for each problem. The intended audience of this text consists of undergraduate and beginning graduate students with basic knowledge of electromagnetic field theory, numerical analysis, and MATLAB-programming.

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