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Well-written, handy and comprehensive, this laboratory experiments manual caters to the requirements of students of Electronics and Communication Engineering. Each experiment in the book provides essential theory, aim, scope, statement, equipment required, procedure, complete circuit diagram, tabulation, model graphs and results. A complete laboratory manual for students of electronics and communication engineering. Also useful for EEE, EIE, CSE, IT, ICE mechanical and polytechnic students.
This handbook is prepared after extensive simulations of the circuits with some electronic and engineering software such as Multisim, PSPICE and Circuit Logic. This handbook is designed basically to assist both tutors and students in the conduct of laboratory experiments. It has been proven over time that students tend to remember experiments they conducted much more than lectures they received. This handbook was written in a simple technical language and the mathematics behind the experiments clearly derived and explained. This book is intended to add a wealth of knowledge especially in physics, Electrical and Electronic and communications engineering for students in tertiary institutions such as Polytechnics, Monotechnics and Universities. This handbook contains thirty-eight experiments which can be categorized into Basic Electrical and Electronics Engineering experiments, Analogue Electronics experiments, and Digital Electronics experiments. Each experiment contains details of objectives, materials, theoretical background and procedures. The procedure involves steps and questions in understanding of the experiment being conducted. At the end of the book, some individual projects are present with the aim that, students who have mastered the experiments in the book can design basic electronics to solve world problems.
This Handbook is prepared after extensive simulations of circuits with some electronic and engineering software such as Multisim, Pspice, Proteus, MATLAB and Circuit Logic. The Handbook is designed basically to assist both tutors and students in the conduction of laboratory experiments. It has been proven over time that students tend to remember the experiments that they had conducted much better than the lectures that they received. The Handbook has been written in a simple technical language and the mathematics behind the experiments have been clearly derived and explained. The book is intended to add wealth of knowledge, especially in physics, electrical and electronic and communications engineering programmes for students in tertiary institutions such as Polytechnics, Monotechnics and Universities. This Handbook contains five sections and a total of thirty-three experiments which can be categorized into Basic Electronics Software, Communication System Engineering experiments and Optical Communication experiments. Each experiment contains objectives, materials, theoretical background and procedures. The procedure involves steps and questions for understanding the experiments being conducted.
This book, which comprises eight chapters, presents a comprehensive critical survey of the results and methods of laboratory experiments in economics. The first chapter provides an introduction to experimental economics as a whole, with the remaining chapters providing surveys by leading practitioners in areas of economics that have seen a concentration of experiments: public goods, coordination problems, bargaining, industrial organization, asset markets, auctions, and individual decision making. The work aims both to help specialists set an agenda for future research and to provide nonspecialists with a critical review of work completed to date. Its focus is on elucidating the role of experimental studies as a progressive research tool so that wherever possible, emphasis is on series of experiments that build on one another. The contributors to the volume--Colin Camerer, Charles A. Holt, John H. Kagel, John O. Ledyard, Jack Ochs, Alvin E. Roth, and Shyam Sunder--adopt a particular methodological point of view: the way to learn how to design and conduct experiments is to consider how good experiments grow organically out of the issues and hypotheses they are designed to investigate.
This volume provides the first comprehensive overview of how political scientists have used experiments to transform their field of study.
So, what we have here is a Manual of Laboratory Experiments. To know, understand, apply and control a phenomenon, which is the object of engineering, you have to measure it, assess the quantities involved and record the effects observed in facts and figures, so that others can study the observations and apply the results, without having to repeat the experiment. The British scientist, Sir William Thomson (Lord Kelvin, 1824 - 1907), concisely captured this aspect of knowledge where he wrote:“When you can measure what you are speaking about and express it in numbers, you know what you are talking about.”The importance of experiments in science and engineering cannot be overemphasized. This manual is prepared after extensive simulations of the circuits with electronic workbench and Multisim. This manual designed to assist staff and students in the conduct of laboratory experiments. Each course of lectures should be supported and illustrated by laboratory experiments. Indeed, students remember experiments they conducted much more than they recall lectures they have taken. The texts have been written in simple technical language and the mathematics behind each experiment clearly derived and explained. The book is of great value to Physics, Electrical and Electronic and Telecommunication Engineering students in Tertiary institutions (Polytechnics, Monotechnics and Universities).The handbook contains 11 experiments, each contains, objectives, materials, preparation and procedure. The procedure involves steps and questions to aid in understanding the experiments being conducted. We wish to seize this opportunity to express our profound gratitude to all those that made the preparations, conduct of the experiments and the publication of this handbook possible. We are particularly grateful to all the technical staff of the department of Electrical and Electronics Engineering, Federal University of Technology Minna and University of Ado-Ekiti for their priceless support during the testing of the experiments.
It’s never been more important to engage a child's scientific curiosity, and Sean Connolly knows just how to do it—with lively, hands-on, seemingly "dangerous" experiments that pop, ooze, crash, and teach! Now, the author of The Book of Totally Irresponsible Science, takes it one step further: He leads kids through the history of science, and then creates amazing yet simple experiments that demonstrate key scientific principles. Tame fire just like a Neanderthal with the Fahrenheit 451 experiment. Round up all your friends and track the spread of "disease" using body glitter with an experiment inspired by Edward Jenner, the vaccination pioneer who's credited with saving more lives than any other person in history. Rediscover the wheel and axle with the ancient Sumerians, and perform an astounding experiment demonstrating the theory of angular momentum. Build a simple telescope—just like Galileo's—and find the four moons he discovered orbiting Jupiter (an act that helped land him in prison). Take a less potentially catastrophic approach to electricity than Ben Franklin did with the Lightning Mouth experiment. Re-create the Hadron Collider in a microwave with marshmallows, calculator, and a ruler—it won't jeopardize Earth with a simulated Big Bang, but will demonstrate the speed of light. And it's tasty! By letting kids stand on the shoulders of Aristotle, Newton, Einstein, the Wright brothers, Marie Curie, Darwin, Watson and Crick, and more, The Book of Potentially Catastrophic Science is an uncommonly engaging guide to science, and the great stories of the men and women behind the science.
This lab book, written by Frank Pugh and Wes Ponick, provides students and instructors with easy to follow laboratory experiments. The experiments range from an introduction to laboratory equipment to experiments dealing with filter applications. All experiments have been student tested to ensure their effectiveness. The lab book is organized to correlate with topics covered in the text chapter by chapter. All experiments have a MultiSim activity that is to be done prior to the actual physical lab activity. MultiSim files (version 8) are included on a bound-in CD-ROM. This prepares students to work with circuit simulation software, and also to do "pre-lab" preparation before doing a physical lab exercise. MultiSim coverage also reflects the widespread use of circuit simulation software in today's electronic industries.
This third edition of Design of Experiments for Engineers and Scientists adds to the tried and trusted tools that were successful in so many engineering organizations with new coverage of design of experiments (DoE) in the service sector. Case studies are updated throughout, and new ones are added on dentistry, higher education, and utilities. Although many books have been written on DoE for statisticians, this book overcomes the challenges a wider audience faces in using statistics by using easy-to-read graphical tools. Readers will find the concepts in this book both familiar and easy to understand, and users will soon be able to apply them in their work or research. This classic book is essential reading for engineers and scientists from all disciplines tackling all kinds of product and process quality problems and will be an ideal resource for students of this topic. Written in nonstatistical language, the book is an essential and accessible text for scientists and engineers who want to learn how to use DoE Explains why teaching DoE techniques in the improvement phase of Six Sigma is an important part of problem-solving methodology New edition includes two new chapters on DoE for services as well as case studies illustrating its wider application in the service industry
Activities include testing your eyes, making electricity, bending light and weather watching.