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This study guide is designed for students taking courses in electrical circuit analysis. The book includes examples, questions, and exercises that will help electrical engineering students to review and sharpen their knowledge of the subject and enhance their performance in the classroom. Offering detailed solutions, multiple methods for solving problems, and clear explanations of concepts, this hands-on guide will improve student’s problem-solving skills and basic understanding of the topics covered in electric circuit analysis courses.
Understanding DC Circuits covers the first half of a basic electronic circuits theory course, integrating theory and laboratory practice into a single text. Several key features in each unit make this an excellent teaching tool: objectives, key terms, self-tests, lab experiments, and a unit exam. Understanding DC Circuits is designed with the electronics beginner and student in mind. The authors use a practical approach, exposing the reader to the systems that are built with DC circuits, making it easy for beginners to master even complex concepts in electronics while gradually building their knowledge base of both theory and applications. Each chapter includes easy-to-read text accompanied by clear and concise graphics fully explaining each concept before moving onto the next. The authors have provided section quizzes and chapter tests so the readers can monitor their progress and review any sections before moving onto the next chapter. Each chapter also includes several electronics experiments, allowing the reader to build small circuits and low-cost projects for the added bonus of hands-on experience in DC electronics. Understanding DC Circuits fully covers dozens of topics including energy and matter; static electricity; electrical current; conductors; insulators; voltage; resistance; schematic diagrams and symbols; wiring diagrams; block diagrams; batteries; tools and equipment; test and measurement; series circuits; parallel circuits; magnetism; electromagnetism; inductance; capacitance; soldering techniques; circuit troubleshooting; basic electrical safety; plus much more. - Integrates theory and lab experiments - Contains course and learning objectives and self-quizzes - Heavily illustrated
An essential resource for both students and teachers alike, this DC Electrical Circuits Workbook contains over 500 problems spread across seven chapters. Each chapter begins with an overview of the relevant theory and includes exercises focused on specific kinds of circuit problems such as Analysis, Design, Challenge and Computer Simulation. An Appendix offers the answers to the odd-numbered Analysis and Design exercises. Chapter topics include fundamental for current, voltage, energy, power and resistor color code; series, parallel, and series-parallel resistive circuits using either voltage or current sources; analysis techniques such as superposition, source conversions, mesh analysis, nodal analysis, Thévenin's and Norton's theorems, and delta-wye conversions; plus dependent sources, and an introduction to capacitors and inductors. RL and RC circuits are included for DC initial and steady state response along with transient response. This is the print version of the on-line OER.
This introductory text covers basic electronics and the behavior of passive components, circuit analysis and systematic troubleshooting. The analytical methods used are strongly based on Ohm's and Kirchoff's Laws. Mathematics are used for analysis, but only after a solid, intuitive understanding of circuit or device operation has been established. With a heavy emphasis on critical thinking over rote memorization, and the coverage of state of the art technology, this text truly prepares students to use and apply the knowledge they acquire.
Luis Moura and Izzat Darwazeh introduce linear circuit modelling and analysis applied to both electrical and electronic circuits, starting with DC and progressing up to RF, considering noise analysis along the way. Avoiding the tendency of current textbooks to focus either on the basic electrical circuit analysis theory (DC and low frequency AC frequency range), on RF circuit analysis theory, or on noise analysis, the authors combine these subjects into the one volume to provide a comprehensive set of the main techniques for the analysis of electric circuits in these areas. Taking the subject from a modelling angle, this text brings together the most common and traditional circuit analysis techniques (e.g. phasor analysis) with system and signal theory (e.g. the concept of system and transfer function), so students can apply the theory for analysis, as well as modelling of noise, in a broad range of electronic circuits. A highly student-focused text, each chapter contains exercises, worked examples and end of chapter problems, with an additional glossary and bibliography for reference. A balance between concepts and applications is maintained throughout. Luis Moura is a Lecturer in Electronics at the University of Algarve. Izzat Darwazeh is Senior Lecturer in Telecommunications at University College, London, previously at UMIST. - An innovative approach fully integrates the topics of electrical and RF circuits, and noise analysis, with circuit modelling - Highly student-focused, the text includes exercises and worked examples throughout, along with end of chapter problems to put theory into practice
provides a better understanding of electrical engineering terms, concepts, principles, laws, analysis methods, solution strategies and computational techniques. includes a brief introduction to the NEC and the Arc Flash Codes. deals with electrical energy cost and tips on improvement of electrical energy intensity in industrial and commercial environment. discusses myriad battery options available in the market; their strengths, weaknesses, opportunities that lie ahead and potential threats, and how batteries compare with capacitors as energy storage devices.
This book provides an understanding of the nature of short-circuit currents, current interruption theories, circuit breaker types, calculations according to ANSI/IEEE and IEC standards, theoretical and practical basis of short-circuit current sources, and the rating structure of switching devices. The book aims to explain the nature of short-circuit currents, the symmetrical components for unsymmetrical faults, and matrix methods of solutions, which are invariably used on digital computers. It includes innovations, worked examples, case studies, and solved problems.