The fascinating saga of solving the mystery of this ancient animal who once roamed the north country—and has captivated our collective imagination ever since. Today, we know that a mammoth is an extinct type of elephant that was covered with long fur and lived in the north country during the ice ages. But how do you figure out what a mammoth is if you have no concept of extinction, ice ages, or fossils? Long after the last mammoth died and was no longer part of the human diet, it still played a role in human life. Cultures around the world interpreted the remains of mammoths through the lens of their own worldview and mythology. When the ancient Greeks saw deposits of giant fossils, they knew they had discovered the battle fields where the gods had vanquished the Titans. When the Chinese discovered buried ivory, they knew they had found dragons’ teeth. But as the Age of Reason dawned, monsters and giants gave way to the scientific method. Yet the mystery of these mighty bones remained. How did Enlightenment thinkers overcome centuries of myth and misunderstanding to reconstruct an unknown animal? The journey to unravel that puzzle begins in the 1690s with the arrival of new type of ivory on the European market bearing the exotic name "mammoth." It ends during the Napoleonic Wars with the first recovery of a frozen mammoth. The path to figuring out the mammoth was traveled by merchants, diplomats, missionaries, cranky doctors, collectors of natural wonders, Swedish POWs, Peter the Great, Ben Franklin, the inventor of hot chocolate, and even one pirate. McKay brings together dozens of original documents and illustrations, some ignored for centuries, to show how this odd assortment of characters solved the mystery of the mammoth and, in doing so, created the science of paleontology.
This is the first broad treatment of carbohydrate chemistry in many years, and presents the structures, reactions, modifications, and properties of carbohydrates. Woven throughout the text are discussions of biological properties of carbohydrates, their industrial applications, and the history of the field of carbohydrate chemistry. Written for students as well as practising scientists, this textbook and handy reference will be of interest to a wide range of disciplines: biochemistry, chemistry, food and nutrition, microbiology, pharmacology, and medicine.
The maturation of nanotechnology has revealed it to be a unique and distinct discipline rather than a specialization within a larger field. Its textbook cannot afford to be a chemistry, physics, or engineering text focused on nano. It must be an integrated, multidisciplinary, and specifically nano textbook. The archetype of the modern nano textbook
WINNER 2009 CHOICE AWARD OUTSTANDING ACADEMIC TITLE! Nanotechnology is no longer a subdiscipline of chemistry, engineering, or any other field. It represents the convergence of many fields, and therefore demands a new paradigm for teaching. This textbook is for the next generation of nanotechnologists. It surveys the field’s broad landscape, exploring the physical basics such as nanorheology, nanofluidics, and nanomechanics as well as industrial concerns such as manufacturing, reliability, and safety. The authors then explore the vast range of nanomaterials and systematically outline devices and applications in various industrial sectors. This color text is an ideal companion to Introduction to Nanoscience by the same group of esteemed authors. Both titles are also available as the single volume Introduction to Nanoscience and Nanotechnology Qualifying instructors who purchase either of these volumes (or the combined set) are given online access to a wealth of instructional materials. These include detailed lecture notes, review summaries, slides, exercises, and more. The authors provide enough material for both one- and two-semester courses.
Following the basic ideas, standard constructions and important examples in the theory of permutation groups, the book goes on to develop the combinatorial and group theoretic structure of primitive groups leading to the proof of the pivotal ONan-Scott Theorem which links finite primitive groups with finite simple groups. Special topics covered include the Mathieu groups, multiply transitive groups, and recent work on the subgroups of the infinite symmetric groups. With its many exercises and detailed references to the current literature, this text can serve as an introduction to permutation groups in a course at the graduate or advanced undergraduate level, as well as for self-study.
The third edition of this definitive and popular book continues to pursue the question: what is the most efficient way to pack a large number of equal spheres in n-dimensional Euclidean space? The authors also examine such related issues as the kissing number problem, the covering problem, the quantizing problem, and the classification of lattices and quadratic forms. There is also a description of the applications of these questions to other areas of mathematics and science such as number theory, coding theory, group theory, analogue-to-digital conversion and data compression, n-dimensional crystallography, dual theory and superstring theory in physics. New and of special interest is a report on some recent developments in the field, and an updated and enlarged supplementary bibliography with over 800 items.
Beginning with a theoretical discussion of race, sport and media, this book critically examines issues of race, racism and sports journalism and offers practical advice on sports reporting, including a discussion of guidelines for ethical journalism. In a series of case studies, representations of race will be explored through historical and contemporary analysis of international media coverage, including online and digital platforms. The background and impacts of these representations will also be discussed through interviews with athletes and sports journalists. Subjects covered include: cricket in the UK, Australian and Asian media, with particular focus on Pakistan athletics and media representations of athletes, including a study of the reporting of South African runner Caster Semenya football and the under-representation of British-Asians, with an analysis of how race is constructed in the digital arena boxing with particular reference to Muhammad Ali, America and Islam Formula One and analysis of the media reporting, international spectator response and racism towards Lewis Hamilton, described in the media as the first black driver. Finally, the book will analyse the make-up of sports journalism, examining the causes and consequences of a lack of diversity within the profession.
There are great expectations of voluntary action in contemporary Britain but limited in-depth insight into the level, distribution and understanding of what constitutes voluntary activity. Drawing on extensive survey data and written accounts of citizen engagement, this book charts change and continuity in voluntary activity since 1981. How voluntary action has been defined and measured is considered alongside individuals’ accounts of their participation and engagement in volunteering over their lifecourses. Addressing fundamental questions such as whether the public are cynical about or receptive to calls for greater voluntary action, the book considers whether respective government expectations of volunteering can really be fulfilled. Is Britain really a “shared society”, or a “big society”, and what is the scope for expansion of voluntary effort? This pioneering study combines rich, qualitative material from the Mass Observation Archive between 1981 and 2012, and data from many longitudinal and cross-sectional social surveys. Part of the Third Sector Research Series, this book is informed by research undertaken at the Third Sector Research Centre, funded by the Economic and Social Research Council and Barrow Cadbury Trust.
This two-volume handbook offers a comprehensive and well coordinated presentation of SQUIDs (Superconducting Quantum Interference Devices), including device fundamentals, design, technology, system construction and multiple applications. It is intended to bridge the gap between fundamentals and applications, and will be a valuable textbook reference for graduate students and for professionals engaged in SQUID research and engineering. It will also be of use to specialists in multiple fields of practical SQUID applications, from human brain research and heart diagnostics to airplane and nuclear plant testing to prospecting for oil, minerals and buried ordnance. The first volume contains chapters presenting the theory of SQUIDs, their fabrication from low- and high-temperature superconductors, the necessary readout electronics, and the design and performance of practical direct current (dc) and radio-frequency (rf) SQUIDs. This volume concludes with an overview of the most important SQUID system issues. An appendix summarizes briefly the foundations of superconductivity that are necessary to understand SQUIDs. A glossary and tables of units and constants are also included. The second volume of the handbook will deal with applications of SQUIDs and SQUID systems.
The discovery by Green and Schwarz in 1984 that ten-dimensional superstring theory is anomaly-free and finite only if the Yang-Mills gauge group is SO(32) or E8 x E8 has made the phenomenological possibilities of superstrings evident. Ths has resulted in a sudden surge of interest in superstrings unification. Since this fast-developing field is new to almost all theoretical physicist, this collection of basic pre-1985 references should be very valuable. This two volumes contain over 1000 pages of reprints plus some introductory comments by J Schwarz.
When in 1867 the four principal British provinces in the eastern portion of North America were confederated under the British North America Act and became the original Dominion of Canada, the vast regions of the west vaguely known under several designations such as the “Hudson’s Bay Territory,” the “Northwest Territory” and “Rupert’s Land,” and extending from the United States boundary to Arctic sea, and from the western frontier of Ontario, James bay and Hudson bay to Rocky mountains, remained under the rule of the Hudson’s Bay Company. The Fathers of Confederation had in view, however, a union of all the British possessions on the continent, and one of the measures passed at the first session of the first parliament of the new Dominion provided for the opening of negotiations for the union of the Hudson bay territory with the confederated provinces. Thanks largely to the diplomatic offices of the British government, the rights of the Hudson’s Bay Company were eventually bought out by Canada, and this vast territory, estimated at upwards of two million three hundred thousand square miles, was transferred to the Dominion of Canada in the year 1867. The cash consideration obtained by the company from the Dominion for the relinquishment of its rights and titles was the sum of three hundred thousand pounds sterling; but there was also a provision for the retention by the Company of blocks of land adjoining each of its stations; and the right was allowed the company for fifty years, from 1870, to “claim in any township or district within the fertile belt in which land is set out for settlement, grants of land not exceeding one-twentieth part of the land so set out.” For the purpose of the agreement the “Fertile Belt” was described therein as being bounded as follows:—“On the south by the United States boundary; on the west by Rocky mountains; on the north by the northern branch of the Saskatchewan; on the east by Lake Winnipeg, Lake of the Woods, and the waters connecting them.”
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