Have you ever fallen victim to Murphy's law? Sometimes bad things just happen. In Why Sh*t Happens, esteemed British scientist Peter J. Bentley takes readers on an informative and amusing tour through the least lucky, most accident-prone day of their lives. From sleeping through the alarm clock and burning breakfast to getting caught in the rain and navigating a slippery road, Bentley brilliantly explores disaster and mishap on a molecular level. In the process, he explains the science behind each accident, arming readers with the knowledge to understand what went wrong and how they can steer clear of future harm. Science is respected, trusted, and according to Bentley, largely misunderstood. Why Sh*t Happens urges readers to arm themselves with the power of science in order to better understand the world around them. When a car engine is damaged by the wrong gasoline or a computer is attacked by a virus, science is not to blame, but rather can provide an explanation of what happened. In a text that exudes charm and wit, Bentley reveals the causes behind a wide spectrum of mishaps, including why that razor nick won't stop bleeding, why metal sparks in the microwave, what makes chewing gum stick in hair, and why milk tastes sour when it goes bad. Sh*t will always happen, but now readers will know exactly why. Enter, if you dare, the world of everyday disasters.
There's a hidden science that affects every part of your life. You are fluent in its terminology of email, WiFi, social networking, and encryption. You use its results when you make a telephone call, access the Internet, use any factory-produced product, or travel in any modern car. The discipline is so new that some prefer to call it a branch of engineering or mathematics. But it is so powerful and world-changing that you would be hard-pressed to find a single human being on the planet unaffected by its achievements. The science of computers enables the supply and creation of power, food, water, medicine, transport, money, communication, entertainment, and most goods in shops. It has transformed societies with the Internet, the digitization of information, mobile phone networks and GPS technologies. Here, Peter J. Bentley explores how this young discipline grew from its theoretical conception by pioneers such as Turing, through its growth spurts in the Internet, its difficult adolescent stage where the promises of AI were never achieved and dot-com bubble burst, to its current stage as a (semi)mature field, now capable of remarkable achievements. Charting the successes and failures of computer science through the years, Bentley discusses what innovations may change our world in the future.
Imagine a future world where computers can create universes -- digital environments made from binary ones and zeros. Imagine that within these universes there exist biological forms that reproduce, grow, and think. Imagine plantlike forms, ant colonies, immune systems, and brains, all adapting, evolving, and getting better at solving problems. Imagine if our computers became greenhouses for a new kind of nature. Just think what digital biology could do for us. Perhaps it could evolve new designs for us, think up ways to detect fraud using digital neurons, or solve scheduling problems with ants. Perhaps it could detect hackers with immune systems or create music from the patterns of growth of digital seashells. Perhaps it would allow our computers to become creative and inventive. Now stop imagining. digital biology is an intriguing glimpse into the future of technology by one of the most creative thinkers working in computer science today. As Peter J. Bentley explains, the next giant step in computing technology is already under way as computer scientists attempt to create digital universes that replicate the natural world. Within these digital universes, we will evolve solutions to problems, construct digital brains that can learn and think, and use immune systems to trap and destroy computer viruses. The biological world is the model for the next generation of computer software. By adapting the principles of biology, computer scientists will make it possible for computers to function as the natural world does. In practical terms, this will mean that we will soon have "smart" devices, such as houses that will keep the temperature as we like it and automobiles that will start only for drivers they recognize (through voice recognition or other systems) and that will navigate highways safely and with maximum fuel efficiency. Computers will soon be powerful enough and small enough that they can become part of clothing. "Digital agents" will be able to help us find a bank or restaurant in a city that we have never visited before, even as we walk through the airport. Miniature robots may even be incorporated into our bodies to monitor our health. Digital Biology is also an exploration of biology itself from a new perspective. We must understand how nature works in its most intimate detail before we can use these same biological processes inside our computers. Already scientists engaged in this work have gained new insights into the elegant simplicity of the natural universe. This is a visionary book, written in accessible, nontechnical language, that explains how cutting-edge computer science will shape our world in the coming decades.
Broken down into ten simple lessons and written by leading experts in their field, the books reveal the ten most important takeaways from those areas of science you've always wanted to know more about.
In Ten Short Lessons in Artificial Intelligence and Robotics, leading expert Professor Peter J. Bentley breaks down the fast-moving world of computers in the time of automata into ten pivotal lessons, presenting the reader with the essential information they need to get to grips with our most powerful technology and its remarkable implications for our species.From the origins and motivation behind the birth of AI and robotics, to using smart algorithms that allow us to build good robots, to the technologies that enable computers to understand a huge range of sensory information, including language and communication, to the challenges of emotional intelligence, unpredictable environments and imagination in artificial intelligence, this is a cutting-edge, expert-led guide for curious minds.About the series: The Pocket Einstein series is a collection of essential pocket-sized guides for anyone looking to understand a little more about some of the most relevant science that affects us all in the twenty-first century. Broken down into ten simple lessons and written by leading experts in their field, discover the ten most important takeaways from those areas of science we should all know more about.
The use of evolution for creative problem solving is one of the most exciting and potentially significant areas in computer science today. Evolutionary computation is a way of solving problems, or generating designs, using mechanisms derived from natural evolution. This book concentrates on applying important ideas in evolutionary computation to creative areas, such as art, music, architecture, and design. It shows how human interaction, new representations, and approaches such as open-ended evolution can extend the capabilities of evolutionary computation from optimization of existing solutions to innovation and the generation of entirely new and original solutions. This book takes a fresh look at creativity, exploring what it is and how the actions of evolution can resemble it. Examples of novel evolved solutions are presented in a variety of creative disciplines. The editors have compiled contributions by leading researchers in each discipline. If you are a savvy and curious computing professional, a computer-literate artist, musician or designer, or a specialist in evolutionary computation and its applications, you will find this a fascinating survey of the most interesting work being done in the area today. * Explores the use of evolutionary computation to generate novel creations including contemporary melodies, photo-realistic faces, jazz music in collaboration with a human composer, architectural designs, working electronic circuits, novel aircraft maneuvers, two- and three-dimensional art, and original proteins.* Presents resulting designs in black-and-white and color illustrations.* Includes a twin-format audio/CD-ROM with evolved music and hands-on activities for the reader, including evolved images, animations, and source-code related to the text.* Describes in full the methods used so that readers with sufficient skill and interest can replicate the work and extend it.* Is written for a general computer science audience, providing coherent and unified treatment across multiple disciplines.
This book constitutes the refereed proceedings of the Second International Conference on Artificial Immune Systems, ICARIS 2003, held in Edinburgh, UK in September 2003. The 27 revised full papers presented were carefully reviewed and selected from 41 submissions. The book presents the first coherent account of the state of the art in artificial immune systems reserch. The papers are organized in topical sections on applications of artificial immune systems, immunocomputing, emerging metaphors, augmentation of artificial immune systems algorithms, theory of artificial immune systems, and representations and operators.
Written for computer scientists and students, and computer literate artists, designers and specialists in evolutionary computation, this text brings together the most advanced work in the use of evolutionary computation for creative results.
Comprehensive and fully up to date, the six-volume Plastic Surgery remains the gold standard text in this complex area of surgery. Completely revised to meet the demands of both the trainee and experienced surgeon, Trunk and Lower Extremity, Volume 4 of Plastic Surgery, 5th Edition, features new, full-color clinical photos, procedural videos, lectures, and authoritative coverage of hot topics in the field. Editor-narrated video presentations offer a step-by-step audio-visual walkthrough of techniques and procedures. New chapters cover diabetes and foot reconstruction; expands and updates coverage of lymphedema and gender affirmation surgery; and coverage throughout includes new, pioneering translational work shaping the future of trunk and lower extremity surgery. New digital video preface by Dr. Peter C. Neligan addresses the changes across all six volumes. New treatment and decision-making algorithms added to chapters where applicable. New video lectures and editor-narrated slide presentations offer a step-by-step audiovisual walkthrough of techniques and procedures. Evidence-based advice from an expanded roster of international experts allows you to apply the very latest advances in trunk and lower extremity surgery and ensure optimal outcomes. Purchase this volume individually or own the entire set, with the ability to search across all six volumes online!
Feigin and Cherry's Textbook of Pediatric Infectious Diseases helps you put the very latest knowledge to work for your young patients with unparalleled coverage of everything from epidemiology, public health, and preventive medicine through clinical manifestations, diagnosis, treatment, and much more. Ideal for all physicians, whether in an office or hospital setting, Feigin and Cherry’s equips you with trusted answers to your most challenging clinical infectious disease questions. Meet your most difficult clinical challenges in pediatric infectious disease, including today’s more aggressive infectious and resistant strains as well as emerging and re-emerging diseases, with unmatched, comprehensive coverage of immunology, epidemiology, public health, preventive medicine, clinical manifestations, diagnosis, treatment, and much more. Find the answers you need quickly thanks to an organization both by organ system and by etiologic microorganism, allowing you to easily approach any topic from either direction.
This is the first biography of John Francis Bentley (1839-1902), best known as architect of Westminster Cathedral, since his daughter Winefride de l’Hôpital’s Westminster Cathedral and its Architect (1919). Bentley was born in Doncaster, Yorkshire, and went to London to work in the office of Henry Clutton, a distinguished High Victorian architect who became a Roman Catholic in 1856. Bentley also converted, and, after setting up his own practice in 1860, came to be widely recognised as the best Catholic architect of his time. He built comparatively few complete churches, but did extensive work in adding to and furnishing other architects’ churches. He had remarkable skill in the design of woodwork, metalwork, stained glass, and organ cases, all of which are covered in the book. His finest parish church is Holy Rood, Watford, but the climax of his career was the commission in 1894 to design Westminster Cathedral, which was almost complete when he died in 1902.
There's a hidden science that affects every part of your life. You are fluent in its terminology of email, WiFi, social networking, and encryption. You use its results when you make a telephone call, access the Internet, use any factory-produced product, or travel in any modern car. The discipline is so new that some prefer to call it a branch of engineering or mathematics. But it is so powerful and world-changing that you would be hard-pressed to find a single human being on the planet unaffected by its achievements. The science of computers enables the supply and creation of power, food, water, medicine, transport, money, communication, entertainment, and most goods in shops. It has transformed societies with the Internet, the digitization of information, mobile phone networks and GPS technologies. Here, Peter J. Bentley explores how this young discipline grew from its theoretical conception by pioneers such as Turing, through its growth spurts in the Internet, its difficult adolescent stage where the promises of AI were never achieved and dot-com bubble burst, to its current stage as a (semi)mature field, now capable of remarkable achievements. Charting the successes and failures of computer science through the years, Bentley discusses what innovations may change our world in the future.
Have you ever fallen victim to Murphy's law? Sometimes bad things just happen. In Why Sh*t Happens, esteemed British scientist Peter J. Bentley takes readers on an informative and amusing tour through the least lucky, most accident-prone day of their lives. From sleeping through the alarm clock and burning breakfast to getting caught in the rain and navigating a slippery road, Bentley brilliantly explores disaster and mishap on a molecular level. In the process, he explains the science behind each accident, arming readers with the knowledge to understand what went wrong and how they can steer clear of future harm. Science is respected, trusted, and according to Bentley, largely misunderstood. Why Sh*t Happens urges readers to arm themselves with the power of science in order to better understand the world around them. When a car engine is damaged by the wrong gasoline or a computer is attacked by a virus, science is not to blame, but rather can provide an explanation of what happened. In a text that exudes charm and wit, Bentley reveals the causes behind a wide spectrum of mishaps, including why that razor nick won't stop bleeding, why metal sparks in the microwave, what makes chewing gum stick in hair, and why milk tastes sour when it goes bad. Sh*t will always happen, but now readers will know exactly why. Enter, if you dare, the world of everyday disasters.
Developed collaboratively by a doctor and nurse team, this is the first text to deal specifically with nursing difficult patients. Whether patient problems stem from mental distress and ill health, historic substance abuse, demanding family members or abusive behaviour, difficult patients place extra demands on nurses both professionally and personally. Caring for difficult patients requires both technical and interpersonal skills along with an ability to exercise power and set limits. This text presents invaluable practical recommendations and advice, well founded in experience and supported by relevant literature, for nurses coping with challenging, real world situations. Including learning points, further reading, case studies and dialogue examples to highlight good (and bad) practice, the book covers pertinent issues such as psychiatric diagnoses, setting limits and establishing authority, death and dying, stress and work. It is ideal for pre- and post-registration nurses, providing concrete direction on the management of difficult patients.
Many in the research and clinical communities are becoming increasingly aware of the interactions between sleep disorders and chronic pain syndromes. There are a number of obstacles on the path to better patient care, and there is considerable room for improvement in the way knowledge is shared between professionals in the sleep and pain communities. This book serves as the first step toward enhancing communication between the sleep and pain communities with the intent of improving patient care.
Environmental and Low-Temperature Geochemistry presents conceptual and quantitative principles of geochemistry in order to foster understanding of natural processes at and near the earth’s surface, as well as anthropogenic impacts on the natural environment. It provides the reader with the essentials of concentration, speciation and reactivity of elements in soils, waters, sediments and air, drawing attention to both thermodynamic and kinetic controls. Specific features include: • An introductory chapter that reviews basic chemical principles applied to environmental and low-temperature geochemistry • Explanation and analysis of the importance of minerals in the environment • Principles of aqueous geochemistry • Organic compounds in the environment • The role of microbes in processes such as biomineralization, elemental speciation and reduction-oxidation reactions • Thorough coverage of the fundamentals of important geochemical cycles (C, N, P, S) • Atmospheric chemistry • Soil geochemistry • The roles of stable isotopes in environmental analysis • Radioactive and radiogenic isotopes as environmental tracers and environmental contaminants • Principles and examples of instrumental analysis in environmental geochemistry The text concludes with a case study of surface water and groundwater contamination that includes interactions and reactions of naturally-derived inorganic substances and introduced organic compounds (fuels and solvents), and illustrates the importance of interdisciplinary analysis in environmental geochemistry. Readership: Advanced undergraduate and graduate students studying environmental/low T geochemistry as part of an earth science, environmental science or related program. Additional resources for this book can be found at: www.wiley.com/go/ryan/geochemistry.
Imagine a future world where computers can create universes -- digital environments made from binary ones and zeros. Imagine that within these universes there exist biological forms that reproduce, grow, and think. Imagine plantlike forms, ant colonies, immune systems, and brains, all adapting, evolving, and getting better at solving problems. Imagine if our computers became greenhouses for a new kind of nature. Just think what digital biology could do for us. Perhaps it could evolve new designs for us, think up ways to detect fraud using digital neurons, or solve scheduling problems with ants. Perhaps it could detect hackers with immune systems or create music from the patterns of growth of digital seashells. Perhaps it would allow our computers to become creative and inventive. Now stop imagining. digital biology is an intriguing glimpse into the future of technology by one of the most creative thinkers working in computer science today. As Peter J. Bentley explains, the next giant step in computing technology is already under way as computer scientists attempt to create digital universes that replicate the natural world. Within these digital universes, we will evolve solutions to problems, construct digital brains that can learn and think, and use immune systems to trap and destroy computer viruses. The biological world is the model for the next generation of computer software. By adapting the principles of biology, computer scientists will make it possible for computers to function as the natural world does. In practical terms, this will mean that we will soon have "smart" devices, such as houses that will keep the temperature as we like it and automobiles that will start only for drivers they recognize (through voice recognition or other systems) and that will navigate highways safely and with maximum fuel efficiency. Computers will soon be powerful enough and small enough that they can become part of clothing. "Digital agents" will be able to help us find a bank or restaurant in a city that we have never visited before, even as we walk through the airport. Miniature robots may even be incorporated into our bodies to monitor our health. Digital Biology is also an exploration of biology itself from a new perspective. We must understand how nature works in its most intimate detail before we can use these same biological processes inside our computers. Already scientists engaged in this work have gained new insights into the elegant simplicity of the natural universe. This is a visionary book, written in accessible, nontechnical language, that explains how cutting-edge computer science will shape our world in the coming decades.
Broken down into ten simple lessons and written by leading experts in their field, the books reveal the ten most important takeaways from those areas of science you've always wanted to know more about.
Information modeling technology--the open representation of information for database and other computing applications--has grown significantly in recent years as the need for universal systems of information coding has steadily increased. EXPRESS is a particularly successful ISO International Standard language family for object-flavored information modeling. This cogent introduction to EXPRESS provides numerous, detailed examples of the language family's applicability to a diverse range of endeavors, including mechanical engineering, petroleum exploration, stock exchange asset management, and the human genome project. The book also examines the history, practicalities, and implications of information modeling in general, and considers the vagaries of normal language that necessitate precise communication methods. This first-ever guide to information modeling and EXPRESS offers invaluable advice based on years of practical experience. It will be the introduction that students as well as information and data modeling professionals have been waiting for.
This text summarises current scientific methods for the assessment of human physiological fitness. The authors provide a rationale for methods of assessment, examine the limitations of some methods and provide details of alternative techniques.
Offering unparalleled coverage of infectious diseases in children and adolescents, Feigin & Cherry’s Textbook of Pediatric Infectious Diseases 8th Edition, continues to provide the information you need on epidemiology, public health, preventive medicine, clinical manifestations, diagnosis, treatment, and much more. This extensively revised edition by Drs. James Cherry, Gail J. Demmler-Harrison, Sheldon L. Kaplan, William J. Steinbach, and Peter J. Hotez, offers a brand-new full-color design, new color images, new guidelines, and new content, reflecting today’s more aggressive infectious and resistant strains as well as emerging and re-emerging diseases Discusses infectious diseases according to organ system, as well as individually by microorganisms, placing emphasis on the clinical manifestations that may be related to the organism causing the disease. Provides detailed information regarding the best means to establish a diagnosis, explicit recommendations for therapy, and the most appropriate uses of diagnostic imaging. Features expanded information on infections in the compromised host; immunomodulating agents and their potential use in the treatment of infectious diseases; and Ebola virus. Contains hundreds of new color images throughout, as well as new guidelines, new resistance epidemiology, and new Global Health Milestones. Includes new chapters on Zika virus and Guillain-Barré syndrome. Expert ConsultTM eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, and references from the book on a variety of devices.
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