The great distance between Western Australia and the Mediterranean probably explains why so few of the contributors are from the region being considered. The 20 papers explore such topics as reproduct
This book examines a selection of philosophical issues in the context of specific episodes in the development of physical theories. Advances in science are presented against the historical and philosophical backgrounds in which they occurred. A major aim is to impress upon the reader the essential role that philosophical considerations have played in the actual practice of science. The book begins with some necessary introduction to the history of ancient and early modern science, with major emphasis being given to the two great watersheds of twentieth-century physics: relativity and, especially, quantum mechanics. At times the term 'construction' may seem more appropriate than 'discovery' for the way theories have developed and, especially in the later chapters, the question of the influence of historical, philosophical and even social factors on the very form and content of scientific theories is discussed.
Powered by Plants explores the world of plants and how their properties are increasingly helping to shape the cutting edge of human technology and design.Following on from the incredible Invented by Animals and Built by Animals, Powered by Plants introduces us to the wondrous plants whose ingenious features have inspired innovations in human technology.Plants exhibit an incredible range of diversity in their shape, structures and how they interact with other living things and their environment. Some of this great diversity is being increasingly studied and copied, inspiring innovation in science, design, engineering, and technology.This book guides readers through a startling collection of fascinating vegetation, from towering cottonwood trees with wind power potential to slippery, meat-eating assassins of the plant world and the fast-growing aquatic plant which helps propel ships farther using less energy. Learn surprising applications and spin-offs of both exotic species including th
① Do you know what AI is doing to improve our health and wellbeing?② Does this new technology concern you, or impress you?③ Do you want to know more about the future of AI in healthcare?Technology continues to advance at a pace that can seem bewildering. Nowhere else is it moving faster than in the health sector, where ♥AI is now being used to improve millions of lives♥.In this book, ◆ Artificial Intelligence in Healthcare: AI, Machine Learning, and Deep and Intelligent Medicine Simplified for Everyone ◆, you can discover the great improvements that AI is making, with chapters covering: ✓ The current applications and future of AI in healthcare and all major medical specialties✓ The benefits and risks weighed up✓ The ethics involved✓ Machine learning and data science simplified✓ AI's role in medical research and education, health insurance, drug discovery, electronic health records, and the fight against COVID-19✓ The roles that major corporations and start-up companies are playing✓ The
Astronomy has so often been seen as 'the poor man of science;' that misperception however, is thankfully being dispelled as the great strides in scientific discoveries have served to engender an aware
Astronomy has so often been seen as 'the poor man of science;' that misperception however, is thankfully being dispelled as the great strides in scientific discoveries have served to engender an aware
Prussian explorer Alexander von Humboldt (1769–1859) was one of the most respected scientists of his day, influencing the work of Darwin. He is considered the founder of physical geography, climatology, ecology and oceanography. In 1829, the Russian government invited Humboldt to visit the gold and platinum mines in the Urals. As he studied the mountains' mineral wealth, he was the first to predict the presence of diamonds. During six months, his epic 10,000-mile expedition took him as far as the Altai Mountains and the Chinese frontier. Humboldt's observations on the geography, volcanic geology and meteorology of Central Asia, being then a largely unexplored territory, were acknowledged as pioneering contributions. The results of his journey also provided much of the data used in part of his great work Kosmos. The second volume of this book, published in 1831, deals with the hydrology and climatology of Central Asia.
Prussian explorer Alexander von Humboldt (1769–1859) was one of the most respected scientists of his day, influencing the work of Darwin. He is considered the founder of physical geography, climatology, ecology and oceanography. In 1829, the Russian government invited Humboldt to visit the gold and platinum mines in the Urals. As he studied the mountains' mineral wealth, he was the first to predict the presence of diamonds. During six months, his epic 10,000-mile expedition took him as far as the Altai Mountains and the Chinese frontier. Humboldt's observations on the geography, volcanic geology and meteorology of Central Asia, being then a largely unexplored territory, were acknowledged as pioneering contributions. The results of his journey also provided much of the data used in part of his great work Kosmos. The first volume of this book, published in 1831, deals with the mountain chains and volcanoes of Central Asia.
The general area of geophysical fluid mechanics is truly interdisciplinary. Now ideas from statistical physics are being applied in novel ways to inhomogeneous complex systems such as atmospheres and oceans. In this book, the basic ideas of geophysics, probability theory, information theory, nonlinear dynamics and equilibrium statistical mechanics are introduced and applied to large time-selective decay, the effect of large scale forcing, nonlinear stability, fluid flow on a sphere and Jupiter's Great Red Spot. The book is the first to adopt this approach and it contains many recent ideas and results. Its audience ranges from graduate students and researchers in both applied mathematics and the geophysical sciences. It illustrates the richness of the interplay of mathematical analysis, qualitative models and numerical simulations which combine in the emerging area of computational science.
The paradigm of deterministic chaos has influenced thinking in many fields of science. Chaotic systems show rich and surprising mathematical structures. In the applied sciences, deterministic chaos provides a striking explanation for irregular behaviour and anomalies in systems which do not seem to be inherently stochastic. The most direct link between chaos theory and the real world is the analysis of time series from real systems in terms of nonlinear dynamics. Experimental technique and data analysis have seen such dramatic progress that, by now, most fundamental properties of nonlinear dynamical systems have been observed in the laboratory. Great efforts are being made to exploit ideas from chaos theory wherever the data displays more structure than can be captured by traditional methods. Problems of this kind are typical in biology and physiology but also in geophysics, economics, and many other sciences.
Alexander von Humboldt (1769–1859), 'the greatest scientific traveller who ever lived' according to Darwin, made groundbreaking contributions to the fields of geography, oceanography, climatology and ecology. In 1804, he returned from a five-year exploration of Latin America with an incredible wealth of specimens and data which provided the foundations for his theories on the natural order. He expounds them in this book, which was printed in German in 1808 before being translated by the geographer Jean-Baptiste Benoît Eyriès (1767–1846) and published in French in 1828. Humboldt does more than provide descriptions of the great features and phenomena of the Earth, ranging from the geological character of immense plains and steppes to the structure and action of volcanoes. He combines a rigorous scientific approach with his emotional and aesthetic responses to the natural world, thereby constructing a true 'philosophy of nature'.
In classical life insurance mathematics the obligations of the insurance company towards the policy holders were calculated on artificial conservative assumptions on mortality and interest rates. However, this approach is being superseded by developments in international accounting and solvency standards coupled with other advances enabling a market-based valuation of risk, i.e., its price if traded in a free market. The book describes these approaches, and is the first to explain them in conjunction with more traditional methods. The various chapters address specific aspects of market-based valuation. The exposition integrates methods and results from financial and insurance mathematics, and is based on the entries in a life insurance company's market accounting scheme. The book will be of great interest and use to students and practitioners who need an introduction to this area, and who seek a practical yet sound guide to life insurance accounting and product development.
This engaging book explores the dynamic relationship between evolutionary science and musical culture in Victorian Britain, drawing upon a wealth of popular scientific and musical literature to contextualize evolutionary theories of the Darwinian and non-Darwinian revolutions. Bennett Zon uses musical culture to question the hegemonic role ascribed to Darwin by later thinkers, and interrogates the conceptual premise of modern debates in evolutionary musicology. Structured around the Great Chain of Being, chapters are organized by discipline in successively ascending order according to their object of study, from zoology and the study of animal music to theology and the music of God. Evolution and Victorian Musical Culture takes a non-Darwinian approach to the interpretation of Victorian scientific and musical interrelationships, debunking the idea that the arts had little influence on contemporary scientific ideas and, by probing the origins of musical interdisciplinarity, the volume s
The English edition of Liu Lihong’s milestone work is a sublime beacon for the profession of Chinese medicine in the 21st century. Classical Chinese Medicine delivers a straightforward critique of the politically motivated “integration” of traditional Chinese wisdom with Western science during the last sixty years, and represents an ardent appeal for the recognition of Chinese medicine as a science in its own right. Professor Liu’s candid presentation has made this book a bestseller in China, treasured not only by medical students and doctors, but by vast numbers of non-professionals who long for a state of health and well-being that is founded in a deeper sense of cultural identity. Oriental medicine education has made great strides in the West since the 1970s, but clear guidelines regarding the “traditional” nature of Traditional Chinese Medicine (TCM) remain undefined. Classical Chinese Medicine not only delineates the educational and clinical problems faced by the profession in bo
Dive in to the secret world of animal camouflage. Learn how some animals use disguises to catch their prey while others use camouflage to avoid being eaten. Discover the great lengths to which some pr
Science meets sport in this vibrant collection of baseball essays by the late evolutionary biologist.Among Stephen Jay Gould's many gifts was his ability to write eloquently about baseball, his great passion. Through the years, the renowned paleontologist published numerous essays on the sport; these have now been collected in a volume alive with the candor and insight that characterized all of Gould's writing. Here are his thoughts on the complexities of childhood streetball and the joys of opening day; tributes to Mickey Mantle, Babe Ruth, and lesser-knowns such as deaf-mute centerfielder "Dummy" Hoy; and a frank admission of the contradictions inherent in being a lifelong Yankees fan with Red Sox season tickets. Gould also deftly applies the tools of evolutionary theory to the demise of the .400 hitter, the Abner Doubleday creation myth, and the improbability of Joe DiMaggio's 56-game hitting streak.This book is a delight, an essential addition to Gould's remarkable legacy, and a fi
After being thrown out the window of his luxury apartment, science fiction writer Allen Carpentier wakes to find himself at the gates of hell. Feeling he's landed in a great opportunity for a book, he