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101 Things Everyone Should Know About Science
Using an accessible question-and-answer approach, 101 Things Everyone Should Know About Science expands a reader's knowledge in biology, chemistry, physics, earth science and general science.
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Dissipative Ordered Fluids
This is a book on the dissipative dynamics of ordered fluids, with a particular focus on liquid crystals. It covers a whole range of different theories, mainly concerned with nematic liquid crystals in both their chiral and nonchiral variants. The authors begin by giving a detailed account of the molecular origins of orientational order in fluids. They then go on to develop a general framework in which continuum theories for ordered fluids can be phrased. Within this unified setting, they cover both well-established classical theories and new ones with aspects that are not yet completely settled. The book treats a wide range of hydrodynamic theories for liquid crystals, from the original 1960s works by Ericksen and Leslie to new, fast-developing ideas of liquid crystal science. The final chapter is devoted to nematoacoustics and its applications. Old experiments on the propagation of ultrasound waves in nematic liquid crystals are interpreted and explained in the light of a new theory developed within the general theoretical infrastructure proposed in the body of the book. This book is intended both for graduate students and professional scholars in mathematics, physics, and engineering of advanced materials. It delivers a solid framework for liquid crystal hydrodynamics and shows the unifying concepts at the basis of the classical theories. It illustrates how these concepts can also be applied to a wide variety of modern topics. Andre M. Sonnet is in the Department of Mathematics and Statistics at the University of Strathclyde, Glasgow (Scotland) and Epifanio G. Virga is in the Department of Mathematics at the University of Pavia (Italy). They have a long history of working together in liquid crystal science and have contributed, in particular, to the theories of defects and biaxial nematics.
Meteorology at the Millennium
Meteorology at the Millennium details recent advances in meteorology and explores its interfaces with science, technology, and society. Ways in which modern meteorology is contributing to the developments in other sciences are described, as well as how atmospheric scientists are learning from colleagues in related disciplines. Meteorology at the Millennium will serve as a point of reference for students and researchers of meteorology and climatology for many years to come. The areas covered include weather prediction at the millennium, climate variability and change, atmosphere-ocean coupling, the biogeochemical system, weather on other planets. This book is a compilation of the best invited papers presented at a conference celebrating the 150 years of the Royal Meteorological Society (RMS).
In the Name of Science
Science, as Andrew Goliszek proves in this compendious, chilling, and eye-opening book, has always had its dark side. Behind the bright promise of life-saving vaccines and life-enhancing technologies lies the true cost of the efforts to develop them. Knowledge has a price; often that price has been human suffering. The ethical limits governing use of the human body in experimentation have been breached, redefined, and breached again---from the moment the first plague-ridden corpse was heaved over the fortifications of a besieged medieval city to the use of cutting-edge gene therapy today. Those limits are in constant need of redefinition, for the goals and the techniques have become both more refined and more secretive. The German and Japanese human experiments of the 1930s and 1940s horrified the world when they came to light. These barbaric exercises in pseudoscience grew out of assumptions of racial superiority. The subjects were deemed subhuman; ordinary guidelines could therefore be suspended. What has happened in the decades since World War II has differed only in degree. Explicitly or implicitly, any organization or government that undertakes or sponsors scientific research applies some measure of human worth. Experimentation rests upon an equation that balances suffering against gain, the good of the collective against the rights of the individual, and the risk of unknown consequences against the rewards of scientific discovery. Everything depends upon who makes that equation. The sobering and gripping accumulation of evidence in this book proves exactly what has been justified in the name of science. The science of "eugenics" justified enforced sterilization. The need to gain an upper hand in the Cold War justified CIA experiments involving mind control and drugs. The desperate race to control nuclear proliferation was used to justify radiation experiments whose effects are still being felt today. Chemical warfare, gene therapy, molecular medicine: These subjects dominate headlines and even direct our government's foreign policy, yet the whole truth about the experimentation behind them has never been made public. Though not a cheering book, In the Name of Science is a crucially important one, and it deserves a wide audience. A biologist by training, Goliszek presents each topic clearly and explains fully its significance and implications. Connecting the history of scientific experimentation through time with the topics that are likely to dominate the future, he has performed an invaluable service. No other book on the market provides the research included here, or presents it with such persuasive force.