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| math for electronics: Basic Mathematics for Electronics Nelson Magor Cooke, Herbert F. R. Adams, 1970 Basic Mathematics for Electronics combines electronictheory and applications with the mathematical principles necessary to solve a wide range of circuit problems. Coverage of mathematical topics reflects current trends in electronics. A complete chapter is devoted to Karnaugh mapping to help students cope with the greater complexity of modern digital circuit devices. Marginal notes indicate areas of special interest in computers and computer usage.To facilitate learning, material is presented in a block form that employs a two-color, single-column format. After the initial chapters, sections may be studied ndependently. As each new topic is introduced, illustrative examples and numerous problems, graded from easy to difficult, are given for reinforcement. Answers to odd-numbered problems are provided in the back of the book. The Answers to Even-Numbered Problems booklet contains answers and selected worked-out solutions. A computerized Test Bank and Transparency Masters are also available with this edition. |
| math for electronics: Basic Mathematics for Electricity and Electronics Bertrand B. Singer, 1965 |
| math for electronics: Mathematics for Electrical Engineering and Computing Mary P Attenborough, 2003-06-30 Mathematics for Electrical Engineering and Computing embraces many applications of modern mathematics, such as Boolean Algebra and Sets and Functions, and also teaches both discrete and continuous systems - particularly vital for Digital Signal Processing (DSP). In addition, as most modern engineers are required to study software, material suitable for Software Engineering - set theory, predicate and prepositional calculus, language and graph theory - is fully integrated into the book.Excessive technical detail and language are avoided, recognising that the real requirement for practising engineers is the need to understand the applications of mathematics in everyday engineering contexts. Emphasis is given to an appreciation of the fundamental concepts behind the mathematics, for problem solving and undertaking critical analysis of results, whether using a calculator or a computer.The text is backed up by numerous exercises and worked examples throughout, firmly rooted in engineering practice, ensuring that all mathematical theory introduced is directly relevant to real-world engineering. The book includes introductions to advanced topics such as Fourier analysis, vector calculus and random processes, also making this a suitable introductory text for second year undergraduates of electrical, electronic and computer engineering, undertaking engineering mathematics courses.Dr Attenborough is a former Senior Lecturer in the School of Electrical, Electronic and Information Engineering at South Bank University. She is currently Technical Director of The Webbery - Internet development company, Co. Donegal, Ireland. - Fundamental principles of mathematics introduced and applied in engineering practice, reinforced through over 300 examples directly relevant to real-world engineering |
| math for electronics: Math for Electricity & Electronics Dr. Arthur Kramer, 2012-07-27 With its fresh reader-friendly design, MATHEMATICS FOR ELECTRICITY AND ELECTRONICS, 4E is more current, comprehensive, and relevant than ever before. Packed with practical exercises and examples, it equips learners with a thorough understanding of essential algebra and trigonometry for electricity and electronics technology, while helping them improve critical thinking skills. Well-illustrated information sharpens the reader's ability to think quantitatively, predict results, and troubleshoot effectively, while drill and practice sets reinforce comprehension. To ensure mastery of the latest ideas and technology, the text thoroughly explains all mathematical concepts, symbols, and formulas required by future technicians and technologists. In addition, a new homework solution offers a wealth of online resources to maximize study efforts as well as provides an online testing tool for instructors. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version. |
| math for electronics: Mastering Mathematics for Electrical and Electronic Engineering Noel Malcolm Morris, 1994 |
| math for electronics: Mathematics Applied to Electronics James H. Harter, Wallace D. Beitzel, 2004 This book provides an introduction to mathematics applied to electronics, computers, electromechanics, and automation. Organized to be compatible with electric circuit books currently in use, its content balances a formal proof-orientation against the need for expediency in developing a broad, general mathematics ability. KEY TOPICS Chapter topics cover algebra fundamentals, fractions, graphs, linear equations, logarithmic and exponential functions, angles and triangles, vectors and phasors, alternating-current circuits, mathematical analysis, computer numbers systems, and mathematics of computer logic. For Mathematics majors. |
| math for electronics: Learning the Art of Electronics Thomas C. Hayes, David Abrams, Paul Horowitz, 2025-03-31 The much-anticipated new edition of 'Learning the Art of Electronics' is here! It defines a hands-on course, inviting the reader to try out the many circuits that it describes. Several new labs (on amplifiers and automatic gain control) have been added to the analog part of the book, which also sees an expanded treatment of meters. Many labs now have online supplements. The digital sections have been rebuilt. An FPGA replaces the less-capable programmable logic devices, and a powerful ARM microcontroller replaces the 8051 previously used. The new microcontroller allows for more complex programming (in C) and more sophisticated applications, including a lunar lander, a voice recorder, and a lullaby jukebox. A new section explores using an Integrated Development Environment to compile, download, and debug programs. Substantial new lab exercises, and their associated teaching material, have been added, including a project reflecting this edition's greater emphasis on programmable logic. |
| math for electronics: Teach Yourself Algebra for Electronic Circuits Kenneth Jenkins, 2001-08-27 Practical math to help you plan, design, and problem-solve electric circuits The ideal tool for upgrading career-enhancing math skills, Teach Yourself Algebra for Electronic Circuits helps you learn the methods that support today’s technological growth and innovation. Author Ken Jenkins has put together a genuinely user-friendly tutorial. Every chapter is a self-contained unit, making it easier to find the answers you want and learn at your own pace – without flipping through pages, looking for connections or background. Learn or upgrade your skills with: * Self-teaching text, complete with worked-out questions/solutions and final exams *Math that goes beyond elementary algebra, without the burden of heavy-duty calculus you don’t need * Circuit-focused applications, illustrations, and examples * Special help with the algebra of logic and matrices *Hundreds of practical problems with detailed solutions throughout the book * Over 300 illustrations to help you learn quickly and easily |
| math for electronics: Electronics for Kids Oyvind Nydal Dahl, 2016-07-15 Why do the lights in a house turn on when you flip a switch? How does a remote-controlled car move? And what makes lights on TVs and microwaves blink? The technology around you may seem like magic, but most of it wouldn’t run without electricity. Electronics for Kids demystifies electricity with a collection of awesome hands-on projects. In Part 1, you’ll learn how current, voltage, and circuits work by making a battery out of a lemon, turning a metal bolt into an electromagnet, and transforming a paper cup and some magnets into a spinning motor. In Part 2, you’ll make even more cool stuff as you: –Solder a blinking LED circuit with resistors, capacitors, and relays –Turn a circuit into a touch sensor using your finger as a resistor –Build an alarm clock triggered by the sunrise –Create a musical instrument that makes sci-fi soundsThen, in Part 3, you’ll learn about digital electronics—things like logic gates and memory circuits—as you make a secret code checker and an electronic coin flipper. Finally, you’ll use everything you’ve learned to make the LED Reaction Game—test your reaction time as you try to catch a blinking light!With its clear explanations and assortment of hands-on projects, Electronics for Kids will have you building your own circuits in no time. |
| math for electronics: The Definitive Guide to How Computers Do Math Clive Maxfield, Alvin Brown, 2005-10-27 The Basics of Computer Arithmetic Made Enjoyable andAccessible-with a Special Program Included for Hands-onLearning The combination of this book and its associated virtual computeris fantastic! Experience over the last fifty years has shown methat there's only one way to truly understand how computers work;and that is to learn one computer and its instruction set-no matterhow simple or primitive-from the ground up. Once you fullycomprehend how that simple computer functions, you can easilyextrapolate to more complex machines. -Fred Hudson, retired engineer/scientist This book-along with the virtual DIY Calculator-is an incrediblyuseful teaching and learning tool. The interesting trivia nuggetskeep you turning the pages to see what's next. Students will haveso much fun reading the text and performing the labs that theywon't even realize they are learning. -Michael Haghighi, Chairperson of the Business and ComputerInformation Systems Division, Calhoun Community College,Alabama At last, a book that presents an innovative approach to theteaching of computer architecture. Written with authority andverve, witty, superbly illustrated, and enhanced with manylaboratory exercises, this book is a must for students and teachersalike. -Dr. Albert Koelmans, Lecturer in Computer Engineering, Universityof Newcastle upon Tyne, UK, and the 2003 recipient of theEASIT-Eng. Gold Award for Innovative Teaching in ComputerEngineering Packed with nuggets of information and tidbits of trivia, HowComputers Do Math provides an incredibly fun and interestingintroduction to the way in which computers perform their magic ingeneral and math in particular. The accompanying CD-ROM contains avirtual computer/calculator called the DIY Calculator, and thebook's step-by-step interactive laboratories guide you in thecreation of a simple program to run on your DIY Calculator. How Computers Do Math can be enjoyed by non-technical individuals;students of computer science, electronics engineering, andmathematics; and even practicing engineers. All of theillustrations and interactive laboratories featured in the book areprovided on the CD-ROM for use by high school, college, anduniversity educators as lecture notes and handouts. For online resources and more information please visit theauthor's website at ahref=http://www.diycalculator.com/www.DIYCalculator.com/a. |
| math for electronics: Make: Electronics Charles Platt, 2009-11-23 This is teaching at its best! --Hans Camenzind, inventor of the 555 timer (the world's most successful integrated circuit), and author of Much Ado About Almost Nothing: Man's Encounter with the Electron (Booklocker.com) A fabulous book: well written, well paced, fun, and informative. I also love the sense of humor. It's very good at disarming the fear. And it's gorgeous. I'll be recommending this book highly. --Tom Igoe, author of Physical Computing and Making Things Talk Want to learn the fundamentals of electronics in a fun, hands-on way? With Make: Electronics, you'll start working on real projects as soon as you crack open the book. Explore all of the key components and essential principles through a series of fascinating experiments. You'll build the circuits first, then learn the theory behind them! Build working devices, from simple to complex You'll start with the basics and then move on to more complicated projects. Go from switching circuits to integrated circuits, and from simple alarms to programmable microcontrollers. Step-by-step instructions and more than 500 full-color photographs and illustrations will help you use -- and understand -- electronics concepts and techniques. Discover by breaking things: experiment with components and learn from failure Set up a tricked-out project space: make a work area at home, equipped with the tools and parts you'll need Learn about key electronic components and their functions within a circuit Create an intrusion alarm, holiday lights, wearable electronic jewelry, audio processors, a reflex tester, and a combination lock Build an autonomous robot cart that can sense its environment and avoid obstacles Get clear, easy-to-understand explanations of what you're doing and why |
| math for electronics: Lessons in Electric Circuits: An Encyclopedic Text & Reference Guide (6 Volumes Set) Tony R. Kuphaldt, 2011 |
| math for electronics: Basic Mathematics for Electronics Nelson Magor Cooke, Herbert F. R. Adams, 1970 Basic Mathematics for Electronics combines electronictheory and applications with the mathematical principles necessary to solve a wide range of circuit problems. Coverage of mathematical topics reflects current trends in electronics. A complete chapter is devoted to Karnaugh mapping to help students cope with the greater complexity of modern digital circuit devices. Marginal notes indicate areas of special interest in computers and computer usage.To facilitate learning, material is presented in a block form that employs a two-color, single-column format. After the initial chapters, sections may be studied ndependently. As each new topic is introduced, illustrative examples and numerous problems, graded from easy to difficult, are given for reinforcement. Answers to odd-numbered problems are provided in the back of the book. The Answers to Even-Numbered Problems booklet contains answers and selected worked-out solutions. A computerized Test Bank and Transparency Masters are also available with this edition. |
| math for electronics: Electronics and Circuit Analysis Using MATLAB, Second Edition John Okyere Attia, 2004-06-11 The use of MATLAB is ubiquitous in the scientific and engineering communities today, and justifiably so. Simple programming, rich graphic facilities, built-in functions, and extensive toolboxes offer users the power and flexibility they need to solve the complex analytical problems inherent in modern technologies. The ability to use MATLAB effectively has become practically a prerequisite to success for engineering professionals. Like its best-selling predecessor, Electronics and Circuit Analysis Using MATLAB, Second Edition helps build that proficiency. It provides an easy, practical introduction to MATLAB and clearly demonstrates its use in solving a wide range of electronics and circuit analysis problems. This edition reflects recent MATLAB enhancements, includes new material, and provides even more examples and exercises. New in the Second Edition: Thorough revisions to the first three chapters that incorporate additional MATLAB functions and bring the material up to date with recent changes to MATLAB A new chapter on electronic data analysis Many more exercises and solved examples New sections added to the chapters on two-port networks, Fourier analysis, and semiconductor physics MATLAB m-files available for download Whether you are a student or professional engineer or technician, Electronics and Circuit Analysis Using MATLAB, Second Edition will serve you well. It offers not only an outstanding introduction to MATLAB, but also forms a guide to using MATLAB for your specific purposes: to explore the characteristics of semiconductor devices and to design and analyze electrical and electronic circuits and systems. |
| math for electronics: Basic Electronics Eugene W. McWhorter, Alvis J. Evans, 2000 Explains electronic devices and circuits with detailed illustrations. Includes end-of-chapter quizzes and problems. |
| math for electronics: Basic Electronics Bernard Grob, 1971 |
| math for electronics: Mathematics for Electrical Technicians John Bird, Antony J.C. May, 2014-01-21 The definition and solution of engineering problems relies on the ability to represent systems and their behaviour in mathematical terms. Mathematics for Electrical Technicians 4/5 provides a simple and practical guide to the fundamental mathematical skills essential to technicians and engineers. This second edition has been revised and expanded to cover the BTEC Higher - 'Mathematics for Engineers' module for Electrical and Electronic Engineering Higher National Certificates and Diplomas. It will also meet the needs of first and second year undergraduates studying electrical engineering. |
| math for electronics: Easy Electronics Charles Platt, 2017-11-21 This is the simplest, quickest, least technical, most affordable introduction to basic electronics. No tools are necessary--not even a screwdriver. Easy Electronics should satisfy anyone who has felt frustrated by entry-level books that are not as clear and simple as they are supposed to be. Brilliantly clear graphics will take you step by step through 12 basic projects, none of which should take more than half an hour. Using alligator clips to connect components, you see and hear immediateresults. The hands-on approach is fun and intriguing, especially for family members exploring the projects together. The 12 experiments will introduce you to switches, resistors, capacitors, transistors, phototransistors, LEDs, audio transducers, and a silicon chip. You'll even learn how to read schematics by comparing them with the circuits that you build. No prior knowledge is required, and no math is involved. You learn by seeing, hearing, and touching. By the end of Experiment 12, you may be eager to move on to a more detailed book. Easy Electronics will function perfectly as a prequel to the same author's bestseller, Make: Electronics. All the components listed in the book are inexpensive and readily available from online sellers. A very affordable kit has been developed in conjunction with the book to eliminate the chore of shopping for separate parts. A QR code inside the book will take you to the vendor's web site. Concepts include: Transistor as a switch or an amplifier Phototransistor to function as an alarm Capacitor to store and release electricity Transducer to create sounds from a timer Resistor codes A miniature light bulb to display voltage The inner workings of a switch Using batteries and resistors in series and parallel Creating sounds by the pressure of your finger Making a matchbox that beeps when you touch it And more. Grab your copy and start experimenting! |
| math for electronics: Principles of Analog Electronics Giovanni Saggio, 2014-01-29 Richly illustrated in full color, this textbook introduces you to the fascinating world of analog electronics, where fields, circuits, signals and systems, and semiconductors meet. The author expertly blends theory with practical examples to give a clear understanding of how real electronic circuits work. The book reviews the prerequisite mathematics, physics, and chemistry and the theory of circuits before delving into passive and active electronic devices. Taking a fresh approach, it connects electronics to everyday life through interesting observations, key personalities, and real-world applications. |
| math for electronics: Semiconductors and Modern Electronics Chuck Winrich, 2019-11-08 Semiconductors and Modern Electronics is a brief introduction to the physics behind semiconductor technologies. Chuck Winrich, a physics professor at Babson College, explores the topic of semiconductors from a qualitative approach to understanding the theories and models used to explain semiconductor devices. Applications of semiconductors are explored and understood through the models developed in the book. The qualitative approach in this book is intended to bring the advanced ideas behind semiconductors to the broader audience of students who will not major in physics. Much of the inspiration for this book comes from Dr. Winrich's experience teaching a general electronics course to students majoring in business. The goal of that class, and this book, is to bring forward the science behind semiconductors, and then to look at how that science affects the lives of people. |
| math for electronics: Math for Electronics Dale R. Patrick, Stephen W. Fardo, Edwin Smathers, 1988 |
| math for electronics: Electronic Circuits Mike Tooley, 2019-11-07 Electronics explained in one volume, using both theoretical and practical applications. Mike Tooley provides all the information required to get to grips with the fundamentals of electronics, detailing the underpinning knowledge necessary to appreciate the operation of a wide range of electronic circuits, including amplifiers, logic circuits, power supplies and oscillators. The 5th edition includes an additional chapter showing how a wide range of useful electronic applications can be developed in conjunction with the increasingly popular Arduino microcontroller, as well as a new section on batteries for use in electronic equipment and some additional/updated student assignments. The book's content is matched to the latest pre-degree level courses (from Level 2 up to, and including, Foundation Degree and HND), making this an invaluable reference text for all study levels, and its broad coverage is combined with practical case studies based in real-world engineering contexts. In addition, each chapter includes a practical investigation designed to reinforce learning and provide a basis for further practical work. A companion website at http://www.key2electronics.com offers the reader a set of spreadsheet design tools that can be used to simplify circuit calculations, as well as circuit models and templates that will enable virtual simulation of circuits in the book. These are accompanied by online self-test multiple choice questions for each chapter with automatic marking, to enable students to continually monitor their own progress and understanding. A bank of online questions for lecturers to set as assignments is also available. |
| math for electronics: Mathematics and Music David Wright, 2009 Many people intuitively sense that there is a connection between mathematics and music. If nothing else, both involve counting. There is, of course, much more to the association. David Wright's book is an investigation of the interrelationships between mathematics and music, reviewing the needed background concepts in each subject as they are encountered. Along the way, readers will augment their understanding of both mathematics and music. The text explores the common foundations of the two subjects, which are developed side by side. Musical and mathematical notions are brought together, such as scales and modular arithmetic, intervals and logarithms, tone and trigonometry, and timbre and harmonic analysis. When possible, discussions of musical and mathematical notions are directly interwoven. Occasionally the discourse dwells for a while on one subject and not the other, but eventually the connection is established, making this an integrative treatment of the two subjects. The book is a text for a freshman level college course suitable for musically inclined or mathematically inclined students, with the intent of breaking down any apprehension that either group might have for the other subject. Exercises are given at the end of each chapter. The mathematical prerequisites are a high-school level familiarity with algebra, trigonometry, functions, and graphs. Musically, the student should have had some exposure to musical staffs, standard clefs, and key signatures, though all of these are explained in the text. |
| math for electronics: Practical Electronics for Inventors 2/E Paul Scherz, 2006-11-14 THE BOOK THAT MAKES ELECTRONICS MAKE SENSE This intuitive, applications-driven guide to electronics for hobbyists, engineers, and students doesn't overload readers with technical detail. Instead, it tells you-and shows you-what basic and advanced electronics parts and components do, and how they work. Chock-full of illustrations, Practical Electronics for Inventors offers over 750 hand-drawn images that provide clear, detailed instructions that can help turn theoretical ideas into real-life inventions and gadgets. CRYSTAL CLEAR AND COMPREHENSIVE Covering the entire field of electronics, from basics through analog and digital, AC and DC, integrated circuits (ICs), semiconductors, stepper motors and servos, LCD displays, and various input/output devices, this guide even includes a full chapter on the latest microcontrollers. A favorite memory-jogger for working electronics engineers, Practical Electronics for Inventors is also the ideal manual for those just getting started in circuit design. If you want to succeed in turning your ideas into workable electronic gadgets and inventions, is THE book. Starting with a light review of electronics history, physics, and math, the book provides an easy-to-understand overview of all major electronic elements, including: Basic passive components o Resistors, capacitors, inductors, transformers o Discrete passive circuits o Current-limiting networks, voltage dividers, filter circuits, attenuators o Discrete active devices o Diodes, transistors, thrysistors o Microcontrollers o Rectifiers, amplifiers, modulators, mixers, voltage regulators ENTHUSIASTIC READERS HELPED US MAKE THIS BOOK EVEN BETTER This revised, improved, and completely updated second edition reflects suggestions offered by the loyal hobbyists and inventors who made the first edition a bestseller. Reader-suggested improvements in this guide include: Thoroughly expanded and improved theory chapter New sections covering test equipment, optoelectronics, microcontroller circuits, and more New and revised drawings Answered problems throughout the book Practical Electronics for Inventors takes you through reading schematics, building and testing prototypes, purchasing electronic components, and safe work practices. You'll find all thisin a guide that's destined to get your creative-and inventive-juices flowing. |
| math for electronics: Exploring Arduino Jeremy Blum, 2019-10-24 The bestselling beginner Arduino guide, updated with new projects! Exploring Arduino makes electrical engineering and embedded software accessible. Learn step by step everything you need to know about electrical engineering, programming, and human-computer interaction through a series of increasingly complex projects. Arduino guru Jeremy Blum walks you through each build, providing code snippets and schematics that will remain useful for future projects. Projects are accompanied by downloadable source code, tips and tricks, and video tutorials to help you master Arduino. You'll gain the skills you need to develop your own microcontroller projects! This new 2nd edition has been updated to cover the rapidly-expanding Arduino ecosystem, and includes new full-color graphics for easier reference. Servo motors and stepper motors are covered in richer detail, and you'll find more excerpts about technical details behind the topics covered in the book. Wireless connectivity and the Internet-of-Things are now more prominently featured in the advanced projects to reflect Arduino's growing capabilities. You'll learn how Arduino compares to its competition, and how to determine which board is right for your project. If you're ready to start creating, this book is your ultimate guide! Get up to date on the evolving Arduino hardware, software, and capabilities Build projects that interface with other devices—wirelessly! Learn the basics of electrical engineering and programming Access downloadable materials and source code for every project Whether you're a first-timer just starting out in electronics, or a pro looking to mock-up more complex builds, Arduino is a fantastic tool for building a variety of devices. This book offers a comprehensive tour of the hardware itself, plus in-depth introduction to the various peripherals, tools, and techniques used to turn your little Arduino device into something useful, artistic, and educational. Exploring Arduino is your roadmap to adventure—start your journey today! |
| math for electronics: Extreme-temperature and Harsh-environment Electronics Vinod Kumar Khanna, 2017 Electronic devices and circuits are employed by a range of industries in testing conditions from extremes of high- or low-temperature, in chemically corrosive environments, subject to shock and vibration or exposure to radiation. This book presents material selections, with design and fabrication methods for operating electronics in such extremes. |
| math for electronics: Practical Analog, Digital, and Embedded Electronics for Scientists DEPAOLA, 2020-12-30 This book is different to other electronics texts available. First, it is short. Created for a one-semester course taken by physics students, both undergraduate and graduate it includes only the essentials and covers those topics only as deeply as needed in order to understand the material in the integrated laboratory exercises. Unlike many electronics texts for physics students, this one does not delve into the physics of devices. Instead, these are largely treated as black boxes having certain properties that are important to know for designing circuits. The physics comes when the students use their acquired electronics instrumentation knowledge to construct apparatus to make measurements. Since the detailed physics has been left out, this book should be equally useful for students in any of the physical or life sciences. This is the first textbook aimed at the non-electrical engineering student, that has both the generality on analog and digital electronics circuits, coupled to the very timely technology of embedded electronics. The book also features homework exercises, parts list and a suite of useful appendices. Key Features Combined lectures and laboratory course Covers analog and digital electronics Includes embedded systems Homework problems with solutions Complete inventory of required components |
| math for electronics: Getting Started in Electronics Forrest M. Mims, 1983 |
| math for electronics: Advanced Mathematics for Electrical and Computer Engineers Randall L. Musselman, 2021-07-30 Advanced Mathematics for Electrical and Computer Engineers, by Randall L. Musselman, applies comprehensive math topics specifically to electrical and computer-engineering applications. These topics include:?Discrete mathothe mathematics of computation?Probability and random variablesofundamental to communication theory and solid-state devices?Ordinary differential equationsothe mathematics of circuit analysis?Laplace transforms othat makes the math of circuit analysis much more manageable?Fourier series and Fourier transformsothe mathematical backbone of signal analysis?Partial differential equationsothe math description of waves and boundary value problems?Linear algebraothe mathematical language of modern robotics?Vector calculusofundamental to electromagnetism and radio-wave propagationThis book explores each of these topics their own chapters, employing electrical and computer-engineering examples as applications. |
| math for electronics: Calculus for the Electrical and Electronic Technologies Larry Oliver, 2009-06-01 A Calculus text written at an appropriate level for students pursuing the Associate or Bachelor's Degree in Electrical and Electronic Engineering Technology. The text includes many examples relating to these technical fields and has been classroom tested. 315 pages. |
| math for electronics: Digital Electronics Tokheim, 2004-11-01 |
| math for electronics: Introduction to Mathematical Thinking Keith J. Devlin, 2012 Mathematical thinking is not the same as 'doing math'--unless you are a professional mathematician. For most people, 'doing math' means the application of procedures and symbolic manipulations. Mathematical thinking, in contrast, is what the name reflects, a way of thinking about things in the world that humans have developed over three thousand years. It does not have to be about mathematics at all, which means that many people can benefit from learning this powerful way of thinking, not just mathematicians and scientists.--Back cover. |
| math for electronics: Basic Mathematics for Electronics with Calculus Nelson Magor Cooke, Herbert F. R. Adams, Peter B. Dell, 1989-01-01 |
| math for electronics: Troubleshooting Electronic Circuits: A Guide to Learning Analog Electronics Ronald Quan, 2020-03-27 Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Debug, Tweak and fine-tune your DIY electronics projects This hands-on guide shows, step by step, how to build, debug, and troubleshoot a wide range of analog electronic circuits. Written by electronics guru Ronald Quan, Troubleshooting Electronic Circuits: A Guide to Learning Analog Circuits clearly explains proper debugging techniques as well as testing and modifying methods. In multiple chapters, poorly-conceived circuits are analyzed and improved. Inside, you will discover how to design or re-design high-quality circuits that are repeatable and manufacturable. Coverage includes: • An introduction to electronics troubleshooting • Breadboards • Power sources, batteries, battery holders, safety issues, and volt meters • Basic electronic components • Diodes, rectifiers, and Zener diodes • Light emitting diodes (LEDs) • Bipolar junction transistors (BJTs) • Troubleshooting discrete circuits (simple transistor amplifiers) • Analog integrated circuits, including amplifiers and voltage regulators • Audio circuits • Troubleshooting analog integrated circuits • Ham radio circuits related to SDR • Trimmer circuits, including the 555 chip and CMOS circuits |
| math for electronics: Flexible Electronics Vinod Kumar Khanna, 2019 Flexible electronics is a fast-emerging field with the potential for huge industrial importance. Comprising three volumes, this work offers a cohesive, coherent and comprehensive overview of the field. Themes covered include mechanical theory, materials science aspects, fabrication technologies, devices, and applications. -- Prové de l'editor. |
| math for electronics: Basic Mathematics for Electronics Nelson Magor Cooke, 1992 Basic Mathematics for Electronicscombines electronictheory and applications with the mathematical principles necessary to solve a wide range of circuit problems. Coverage of mathematical topics reflects current trends in electronics. A complete chapter is devoted to Karnaugh mapping to help students cope with the greater complexity of modern digital circuit devices. Marginal notes indicate areas of special interest in computers and computer usage.To facilitate learning, material is presented in a block form that employs a two-color, single-column format. After the initial chapters, sections may be studied ndependently. As each new topic is introduced, illustrative examples and numerous problems, graded from easy to difficult, are given for reinforcement. Answers to odd-numbered problems are provided in the back of the book. The Answers to Even-Numbered Problems booklet contains answers and selected worked-out solutions. A computerized Test Bank and Transparency Masters are also available with this edition. |
| math for electronics: Essential Mathematics for Engineering William Bolton, 1997 Outset of a degree course. |
| math for electronics: Understand Electrical and Electronics Maths Owen Bishop, 2013-10-22 Understand Electrical and Electronics Maths covers elementary maths and the aspects of electronics. The book discusses basic maths including quotients, algebraic fractions, logarithms, types of equations and balancing of equations. The text also describes the main features and functions of graphs and the solutions to simpler types of electronics problems. The book then tackles the applications of polar coordinates in electronics, limits, differentiation and integration, and the applications of maths of rates of change in electronics. The activities of an electronic circuit; techniques of mathematical modeling; systematic techniques for dealing with the more difficult sets of simultaneous equations; alternating currents and voltages; and analysis of waveforms are also considered. The book provides answers to exercises for each chapter. Students taking electronics and courses related to electrical engineering at levels up to and including higher national certificate and diploma will find the book useful. |
| math for electronics: Flexible Electronics Vinod Kumar Khanna, 2019-07-31 |
| math for electronics: Digital Electronics Maini, 2007-09-11 The fundamentals and implementation of digital electronics are essential to understanding the design and working of consumer/industrial electronics, communications, embedded systems, computers, security and military equipment. Devices used in applications such as these are constantly decreasing in size and employing more complex technology. It is therefore essential for engineers and students to understand the fundamentals, implementation and application principles of digital electronics, devices and integrated circuits. This is so that they can use the most appropriate and effective technique to suit their technical need. This book provides practical and comprehensive coverage of digital electronics, bringing together information on fundamental theory, operational aspects and potential applications. With worked problems, examples, and review questions for each chapter, Digital Electronics includes: information on number systems, binary codes, digital arithmetic, logic gates and families, and Boolean algebra; an in-depth look at multiplexers, de-multiplexers, devices for arithmetic operations, flip-flops and related devices, counters and registers, and data conversion circuits; up-to-date coverage of recent application fields, such as programmable logic devices, microprocessors, microcontrollers, digital troubleshooting and digital instrumentation. A comprehensive, must-read book on digital electronics for senior undergraduate and graduate students of electrical, electronics and computer engineering, and a valuable reference book for professionals and researchers. |
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