The new edition of this popular textbook provides a modern, accessible introduction to the whole process of aircraft design from requirements to conceptual design, manufacture and in-service issues. Highly illustrated descriptions of the full spectrum of aircraft types, their aerodynamics, structures and systems, allow students to appreciate good and poor design and understand how to improve their own designs. Cost data is considerably updated, many new images have been added and new sections are included on the emerging fields of Uninhabited Aerial Vehicles and environmentally-friendly airlines. Examples from real aircraft projects are presented throughout, demonstrating to students the applications of the theory. Three appendices and a bibliography provide a wealth of information, much not published elsewhere, including simple aerodynamic formulae, an introduction to airworthiness and environmental requirements, aircraft, engine and equipment data, and a case study of the conceptual
Get teens excited about reading by using your own love of books along with a good dose of market savvy. This simple, upbeat guide is packed with practical guidelines and a wealth of exciting ideas for
"Beloved actress and bestselling author Shirley MacLaine contemplates a wealth of subjects from the mundane to the esoteric in this all-new collection of musings that begin with two simple words: What
Actuaries have access to a wealth of individual data in pension and insurance portfolios, but rarely use its full potential. This book will pave the way, from methods using aggregate counts to modern developments in survival analysis. Based on the fundamental concept of the hazard rate, Part I shows how and why to build statistical models, based on data at the level of the individual persons in a pension scheme or life insurance portfolio. Extensive use is made of the R statistics package. Smooth models, including regression and spline models in one and two dimensions, are covered in depth in Part II. Finally, Part III uses multiple-state models to extend survival models beyond the simple life/death setting, and includes a brief introduction to the modern counting process approach. Practising actuaries will find this book indispensable, and students will find it helpful when preparing for their professional examinations.
This collection of engaging and simple to use activities will jumpstart students’ understanding of themselves, their relationships and their knowledge of how to lead a healthy lifestyle.A wealth of pr
How do democracies form and what makes them die? Daniel Ziblatt revisits this timely and classic question in a wide-ranging historical narrative that traces the evolution of modern political democracy in Europe from its modest beginnings in 1830s Britain to Adolf Hitler's 1933 seizure of power in Weimar Germany. Based on rich historical and quantitative evidence, the book offers a major reinterpretation of European history and the question of how stable political democracy is achieved. The barriers to inclusive political rule, Ziblatt finds, were not inevitably overcome by unstoppable tides of socioeconomic change, a simple triumph of a growing middle class, or even by working class collective action. Instead, political democracy's fate surprisingly hinged on how conservative political parties – the historical defenders of power, wealth, and privilege – recast themselves and coped with the rise of their own radical right. With striking modern parallels, the book has vital implications
Numerical methods are indispensable tools in the analysis of complex fluid flows. This book focuses on computational techniques for high-speed gas flows, especially gas flows containing shocks and other steep gradients. The book decomposes complicated numerical methods into simple modular parts, showing how each part fits and how each method relates to or differs from others. The text begins with a review of gasdynamics and computational techniques. Next come basic principles of computational gasdynamics. The last two parts cover basic techniques and advanced techniques. Senior and graduate level students, especially in aerospace engineering, as well as researchers and practising engineers, will find a wealth of invaluable information on high-speed gas flows in this text.
This book conveys the thrill of observing strange and surprising features of the Universe, and the satisfaction gained by understanding them through modern science. Using simple analogies and a wealth of illustrations, Professor Narlikar skilfully steers us through a cosmic journey of discovery, starting from the Earth and Solar System and stepping out to the farthest reaches of the Universe. The seven wonders represent a range of mysterious phenomena, a class of spectacular events, or remarkable cosmic objects that have challenged human curiosity and explanation. They concern the giants and dwarfs of the stellar world, the catastrophic explosion of massive stars, pulsars - the ultimate timekeepers of the cosmos, the strange effects of gravity, illusions of space, and the majestic expansion of the Universe as a whole. With lucid prose and humorous anecdotes, the author weaves together a host of exciting recent discoveries in astronomy and shows us how these motivate astronomers to unra
This book conveys the thrill of observing strange and surprising features of the Universe, and the satisfaction gained by understanding them through modern science. Using simple analogies and a wealth of illustrations, Professor Narlikar skilfully steers us through a cosmic journey of discovery, starting from the Earth and Solar System and stepping out to the farthest reaches of the Universe. The seven wonders represent a range of mysterious phenomena, a class of spectacular events, or remarkable cosmic objects that have challenged human curiosity and explanation. They concern the giants and dwarfs of the stellar world, the catastrophic explosion of massive stars, pulsars - the ultimate timekeepers of the cosmos, the strange effects of gravity, illusions of space, and the majestic expansion of the Universe as a whole. With lucid prose and humorous anecdotes, the author weaves together a host of exciting recent discoveries in astronomy and shows us how these motivate astronomers to unra
The aim of this book is to unite the seemingly disparate topics of Clifford algebras, analysis on manifolds and harmonic analysis. The authors show how algebra, geometry and differential equations all play a more fundamental role in Euclidean Fourier analysis than has been fully realized before. Their presentation of the Euclidean theory then links up naturally with the representation theory of semi-simple Lie groups. By keeping the treatment relatively simple, the book will be accessible to graduate students, yet the more advanced reader will also appreciate the wealth of results and insights made available here.
'Intellectual property' - patents and copyrights - have become controversial. We witness teenagers being sued for 'pirating' music - and we observe AIDS patients in Africa dying due to lack of ability to pay for drugs that are high priced to satisfy patent holders. Are patents and copyrights essential to thriving creation and innovation - do we need them so that we all may enjoy fine music and good health? Across time and space the resounding answer is: No. So-called intellectual property is in fact an 'intellectual monopoly' that hinders rather than helps the competitive free market regime that has delivered wealth and innovation to our doorsteps. This book has broad coverage of both copyrights and patents and is designed for a general audience, focusing on simple examples. The authors conclude that the only sensible policy to follow is to eliminate the patents and copyright systems as they currently exist.
Radiation from astronomical objects generally shows some degree of polarization. Although this polarized radiation is usually only a small fraction of the total radiation, it often carries a wealth of information on the physical state and geometry of the emitting object and intervening material. Measurement of this polarized radiation is central to much modern astrophysical research. This handy volume provides a clear, comprehensive and concise introduction to astronomical polarimetry at all wavelengths. Starting from first principles and a simple physical picture of polarized radiation, the reader is introduced to all the key topics, including Stokes parameters, applications of polarimetry in astronomy, polarization algebra, polarization errors and calibration methods, and a selection of instruments (from radio to X-ray). The book is rounded off with a number of useful case studies, a collection of exercises, an extensive list of further reading and an informative index. This review o
Molecules in the early Universe acted as natural temperature regulators, keeping the primordial gas cool and, in turn, allowing galaxies and stars to be born. Even now, such similarly simple chemistry continues to control a wide variety of the exotic objects that populate our cosmos. What are the tools of the trade for the cosmic chemist? What can they teach us about the Universe we live in? These are the questions answered in this engaging and informative guide, The Chemically Controlled Cosmos. In clear, non-technical terms, and without formal mathematics, we learn how to study and understand the behaviour of molecules in a host of astronomical situations. We study the secretive formation of stars deep within interstellar clouds, the origin of our own Solar System, the cataclysmic deaths of many massive stars that explode as supernovae, and the hearts of active galactic nuclei, the most powerful objects in the Universe. We are given an accessible introduction to a wealth of astrophys
Number theory has a long and distinguished history and the concepts and problems relating to the subject have been instrumental in the foundation of much of mathematics. In this book, Professor Baker describes the rudiments of number theory in a concise, simple and direct manner. Though most of the text is classical in content, he includes many guides to further study which will stimulate the reader to delve into the great wealth of literature devoted to the subject. The book is based on Professor Baker's lectures given at the University of Cambridge and is intended for undergraduate students of mathematics.
The interaction between computer and mathematics is becoming more and more important at all levels as computers become more sophisticated. This book shows how simple programs can be used to do significant mathematics. The purpose of this book is to give those with some mathematical background a wealth of material with which to appreciate both the power of the microcomputer and its relevance to the study of mathematics. The authors cover topics such as number theory, approximate solutions, differential equations and iterative processes, with each chapter self-contained. Many exercises and projects are included giving ready made material for demonstrating mathematical ideas. Only a fundamental knowledge of mathematics is assumed and programming is restricted to 'basic BASIC' which will be understood by any microcomputer. The book may be used as a textbook for algorithmic mathematics at several levels, with all the topics covered appearing in any undergraduate mathematics course.
Molecules in the early Universe acted as natural temperature regulators, keeping the primordial gas cool and, in turn, allowing galaxies and stars to be born. Even now, such similarly simple chemistry continues to control a wide variety of the exotic objects that populate our cosmos. What are the tools of the trade for the cosmic chemist? What can they teach us about the Universe we live in? These are the questions answered in this engaging and informative guide, The Chemically Controlled Cosmos. In clear, non-technical terms, and without formal mathematics, we learn how to study and understand the behaviour of molecules in a host of astronomical situations. We study the secretive formation of stars deep within interstellar clouds, the origin of our own Solar System, the cataclysmic deaths of many massive stars that explode as supernovae, and the hearts of active galactic nuclei, the most powerful objects in the Universe. We are given an accessible introduction to a wealth of astrophys
After helping families raise curious, creative, caring, and confident kids for more than 70 years, Highlights is now helping families prepare for a significant milestone in a child’s life: starting school. With a fresh approach to practicing essential skills for school readiness and success, The Big Fun First Grade Activity Book contains more than 250 pages of imaginative puzzling, humor, and whimsical illustrations. This book contains a wealth of Fun with a Purpose™, puzzle-based activities, and will engage children and get them excited about learning! First graders can practice a variety of skills such as practicing their letters, numbers, colors, shapes, and more, while doing age-appropriate Hidden Pictures® puzzles, mazes, matching puzzles, scavenger hunts, and find-the-difference puzzles. All activities will help kids feel confident in school while supplementing their classroom activities. In addition, each book includes an introduction that is full of simple tips to help parents
Providing a wealth of simple, research-based strategies for teaching reading and writing, this book is designed for each chapter to be accessible to teachers, tutors, parents, and paraprofessionals. T
Providing a wealth of simple, research-based strategies for teaching reading and writing, this book is designed for each chapter to be accessible to teachers, tutors, parents, and paraprofessionals. T
David Bach’s Simple System for Building Wealth Through Homeownership Will Help You Finish Rich in Any Market—AutomaticallyUpdated with a new chapter of success storiesOwning a home has always been the