"Numerical Techniques in Electromagnetics" by Matthew N. O. Sadiku is a textbook that introduces numerical methods for solving electromagnetic (EM) problems. The book is intended for senior or graduate students and can be used for one- or two-semester courses. It covers fundamental concepts in EM, analytical methods, and numerical techniques such as finite difference methods, finite element methods, and Monte Carlo methods. The text aims to teach students how to formulate, analyze, and solve EM problems numerically, as well as expand their problem-solving skills using various numerical methods. It also prepares graduate students for research in EM. The book emphasizes simplicity in presentation to make it suitable for both teaching and self-study. It includes practical applications of the techniques discussed, such as scattering problems and wave propagation. The book also provides references and problems at the end of each chapter to aid in learning. The text is written for students who have a basic understanding of EM and a knowledge of a high-level programming language, such as FORTRAN or C. It also mentions the use of software packages like MATLAB and Mathcad as helpful tools. The book is structured into chapters that cover various topics in EM, including fundamental concepts, analytical methods, finite difference methods, variational methods, moment methods, finite element methods, transmission-line matrix methods, and Monte Carlo methods. The book also includes appendices that provide additional information on vector relations, solving EM problems using C++, and numerical techniques in C++. The text is written in a clear and concise manner, with an emphasis on practical applications and problem-solving. It is a comprehensive resource for students and professionals in the field of electromagnetics."Numerical Techniques in Electromagnetics" by Matthew N. O. Sadiku is a textbook that introduces numerical methods for solving electromagnetic (EM) problems. The book is intended for senior or graduate students and can be used for one- or two-semester courses. It covers fundamental concepts in EM, analytical methods, and numerical techniques such as finite difference methods, finite element methods, and Monte Carlo methods. The text aims to teach students how to formulate, analyze, and solve EM problems numerically, as well as expand their problem-solving skills using various numerical methods. It also prepares graduate students for research in EM. The book emphasizes simplicity in presentation to make it suitable for both teaching and self-study. It includes practical applications of the techniques discussed, such as scattering problems and wave propagation. The book also provides references and problems at the end of each chapter to aid in learning. The text is written for students who have a basic understanding of EM and a knowledge of a high-level programming language, such as FORTRAN or C. It also mentions the use of software packages like MATLAB and Mathcad as helpful tools. The book is structured into chapters that cover various topics in EM, including fundamental concepts, analytical methods, finite difference methods, variational methods, moment methods, finite element methods, transmission-line matrix methods, and Monte Carlo methods. The book also includes appendices that provide additional information on vector relations, solving EM problems using C++, and numerical techniques in C++. The text is written in a clear and concise manner, with an emphasis on practical applications and problem-solving. It is a comprehensive resource for students and professionals in the field of electromagnetics.