In recent times, we have seen increased interest in the direct time domain methods to calculate
electromagnetic scattering/interaction phenomenon. This may be due to the surge in activities
in the areas of EMP, short-pulse radar, or other related applications. It may also be due to the
fact that the time domain methods have several...
In our modern age of remote sensing, wireless communication, and the nearly endless list of other antenna-based applications, complex problems require increasingly sophisticated solutions. Conventional antenna systems are no longer suited to high-noise or low-signal applications such as intrusion detection. Detailing highly effective approaches to...
The theory of complex functions is a strikingly beautiful and powerful area of mathematics. Some particularly fascinating examples are seemingly complicated integrals which are effortlessly computed after reshaping them into integrals along contours, as well as apparently difficult differential and integral equations, which can be elegantly...
This two-part book is devoted to classic fundamentals and current practices and perspectives of modern plasma astrophysics. This second part discusses the physics of magnetic reconnection and flares of electromagnetic origin in space plasmas in the solar system, single and double stars, relativistic objects, accretion disks and their coronae....
At recent major international conferences on wireless communications, there have been several sessions on beyond third generation (3G) or fourth generation (4G) mobile communications systems, where modulation/demodulation and multiplexing/multiple access schemes related to multicarrier techniques have drawn a lot of attention....
Quantum mechanics is one of the most challenging subjects to learn. It is challenging because quantum phenomenon is counterintuitive, and the mathematics used to explain such a phenomenon is very abstract, and difficult to grasp. This textbook is an attempt to overcome these challenges. Every chapter presents quantum ideas step- by-...
For almost 30 years, this book has been a classic text for electronics enthusiasts. Now completely updated for todays technology with easy explanations and presented in a more user-friendly format, this third edition helps you learn the essentials you need to work with electronic circuits. All you need is a general understanding of electronics...
The aim of this book is to summarize the current most effective methods for modeling, simulating, and optimizing metal forming processes, and to present the main features of new, innovative methods currently being developed which will no doubt be the industrial tools of tomorrow. It discusses damage (or defect) prediction in virtual metal...
MATLAB is a powerful programme, which naturally lends itself to the rapid implementation of most numerical algorithms. This text, which uses MATLAB, gives a detailed overview of structured programming and numerical methods for the undergraduate student.
The book covers numerical methods for solving a wide range of problems, from...
Natural phenomena can be visually described with fractal-geometry methods, where iterative procedures rather than equations are used to model objects. With the development of better modelling algorithms, the efficiency of rendering, the realism of computer-generated scenes and the interactivity of visual stimuli are reaching astonishing levels....
This book explores and explains scientific mysteries and principles, leavened with tongue-in-cheek humor and an abundance of illustrations. Chapters are short, but give an understanding of technology and science not available elsewhere. Questions include:
• What holds a satellite up while it goes around the Earth?
Learning (and teaching) the theoretical basis of chemical kinetics is not an easy task.
Following the diversification of master’s programmes, shorter undergraduate
programmes – typically three years in most European countries – do not provide
sufficient knowledge in physical chemistry courses to allow students to...
