This book is for civil engineers that teach fluid mechanics both within their discipline and as a service course to mechanical engineering students. As with all previous editions this 10th edition is extraordinarily accurate, and its coverage of open channel flow and transport is superior. There is a broader coverage of all topics in this edition of Fluid Mechanics with Engineering Applications. Furthermore, this edition has numerous computer-related problems that can be solved in Matlab and Mathcad.

    The book underlines the objective of the understanding of the physical phenomena involved and the ability to formulate and to solve typical problems. With a view to help in better understanding of the phenomena of mass transfer, an effort has also been made to identify the similarities in both qualitative and quantitative approach between heat and mass transfer.The subject matter has been developed from scratch to a sufficiently advanced stage in a logical and coherent manner with neat illustrations and solved examples. Problems and solutions appended to each chapter should further help for better comprehension of the subjects. Properly designed experiments included in the book should further help in the teaching of basic principles.

    

    Energy Levels and Energy Bands 2. Conduction in Semiconductors 3. Semiconductor Device Physics 4. P-N Junction Diode 5. Special Semiconductor Devices 6. Transistors 7. Field Effect Transistors 8. Rectifying Circuits and D.C. Power Supplies 9. Four-Terminal Active Network 10. Transistor Biasing and Thermal Stabilization 11. Small Signal Amplifiers 12. Feedback in Amplifiers 13. Power Amplifiers 14. Sinusoidal Oscillators 15. Switching Circuits (Multivibrators) 16. Integrated Circuits 17. Operational Amplifiers & IC-555 18. Modulation and Demodulation 19. Communication Systems (Digital & Optical Communication) 20. Basic Power Electronics 21. Digital Electronics 22. Digital Logic Families 23. Memory, Microcomputers and Microprocessor 24. Transducers 25. Electronic Instruments.

    This volume offers thorough, balanced, and practical coverage of both software and hardware topics. Develops basic concepts using the 8088 and 8086 microprocessors, but the 32-bit version of the 80x86 family is also discussed. Examines how to assemble, run, and debug programs, and how to build, test, and troubleshoot interface circuits. Provides detailed coverage of floating-point processing and the single instruction multiple data (DIMD) processing capability of the advanced Pentium processor. Includes added material on number systems, logic functions and operations, conversion between number systems, and addition/subtraction of binary numbers. Includes new advanced material such as floating Point Architecture and Instructions, Multimedia (MMX) Architecture and Instructions, and the hardware and hardware architecture of the Pentium 3 and Pentium 4 processors. Covers the Intel architecture microprocessor families: 8088, 8086, 80286, 80386, 80486, and the latest Pentium(R) processors. Illustrates commands of the DEBUG program and how to assemble, disassemble, load, save, execute, and debug programs on the IBM PC. Introduces the contents of the 8088's instruction set. Explores practical implementation techniques, covering the use of latches, transceivers, buffers, and programmable logic devices in the memory and I/O interfaces of the microcomputer system. A valuable handbook for self-study in learning microprocessors, for electrical engineers, electronic technicians, and all computer programmers.

    The scope of the book reflects the changes that have occurred in power technology, allowing the entrance of power electronics into every facet of industrial drives, and expanding the field to open more career opportunities.

    Suitable for undergraduate and postgraduate courses in electrical drives, this book covers topics on: Dynamics and control of electrical drives; Selection of motor power rating; DC, induction and synchronous motor drives; Stepper motor and switched reluctance motor drives; Permanent magnet ac and brushless dc motor drives; and more.

    Electronic circuits consist of inductors, diodes, resistors, capacitors and transistors. They are then connected through wires to ensure that electric current flows. Complex operations like computations, data transfer and amplification of signals can be then effectively performed. The book informs readers about the types of circuits, which can be analog, digital or a combination. A novice student needs to understand and comprehend the workings of the electronic device. This book, with the aid, of examples, concise definitions, clear methodologies, graphics and maps shows readers how easy this subject is to comprehend. The book starts from the basics, by first showing the connection of electronic instrumentation and physics. It continues by explaining in detail what semi conductor mechanisms and circuits do. Readers learn how the contact of two semi conductors or bipolar junction transistors work. One needs to figure the mechanisms of field effect transistors that carry out the single operation of transmitting electrical charge, from the source to the sap. Various power apparatuses, logic gate, boolean algebra and the cathode ray oscilloscope are some topics that have been discussed and explained in the book. Electronic devices and circuits presents a series of questions and answers that serve as key aids to college students too. Evaluation questions, unanswered problems and intentional questions are there to challenge the reader further. Each chapter picks on a specific part of electronic devices and suitably explains it workings and critical concepts. The reprint 2013 edition of this book was published by s k kataria and sons, as a paperback in 2013. Key features: this book is useful for electrical, computer and instrumentation engineering students.

    The solved exercises cover all of the techniques discussed in the text, and include step-by-step instruction on working through the algorithms.

    

    

    Design and troubleshooting examples and exercises show students the important and practical applications of circuit analysis. At least one odd- and one even-numbered exercise for each important topic or concept is included at the end of each chapter. SPICE(Simulation Program with Integrated Cicuit Emphasis), a powerful simulation program designed to simplify computer-aided circuit analysis, is introduced in a special appendix which provides an in-depth description of how to use it.

    

    Reflecting the increasing demand for efficient conversion and control of electrical power, it considers the latest power devices, circuits, and control schemes that continue to extend power electronics technology to new applications areas. Presents material methodically - first establishing the background theory before going on to specific applications. Familiarizes readers with the analysis and operation of various power conversions circuits that have applications at high power levels, and formulates equations that govern the behavior of these circuits. Discusses the application of power electronic devices in uncontrolled and controlled single phase rectifiers, inverters, ac voltage controllers, cycloconverters, and dc choppers, and demonstrates voltage and current waveform analysis for the output, starting with a simple resistive load to more practical inductive loads. Includes many worked examples, basic formulas, and an abundance of illustrations and diagrams.

    The authors draw upon extensive industry and classroom experience to explain modern practices of chip design. The introductory chapter covers transistor operation, CMOS gate design, fabrication, and layout at a level accessible to anyone with an elementary knowledge of digital electornics. Later chapters beuild up an in-depth discussion of the design of complex, high performance, low power CMOS Systems-on-Chip.