Compiled by two of the world’s experts in the field, The Handbook of Trace Elements brings together into a single source a complete listing of the trace elements found in both naturally occurring and manmade substances in the environment. The book provides a thorough description by element for 41 trace elements, transition metals, and micronutrients found in Earth's crust, soil, water, plants, animals, and humans. Elucidating the ecological impact of industrial waste and health problems in animals and humans, this widely accessible resource continues to provide a reliable reference for researchers, scientists, and other professionals engaged in the study of trace elements.
Compiled by two of the world’s experts in the field, The Handbook of Trace Elements brings together into a single source a complete listing of the trace elements found in both naturally occurring and manmade substances in the environment. The book provides a thorough description by element for 41 trace elements, transition metals, and micronutrients found in Earth's crust, soil, water, plants, animals, and humans. Elucidating the ecological impact of industrial waste and health problems in animals and humans, this widely accessible resource continues to provide a reliable reference for researchers, scientists, and other professionals engaged in the study of trace elements.
If science has the equivalent of a Bloomsbury group, it is the five men born at the turn of the twentieth century in Budapest: Theodore von Kármán, Leo Szilard, Eugene Wigner, John von Neumann, and Edward Teller. From Hungary to Germany to the United States, they remained friends and continued to work together and influence each other throughout their lives. As a result, their work was integral to some of the most important scientific and political developments of the twentieth century. István Hargittai tells the story of this remarkable group: Wigner won a Nobel Prize in theoretical physics; Szilard was the first to see that a chain reaction based on neutrons was possible, initiated the Manhattan Project, but left physics to try to restrict nuclear arms; von Neumann could solve difficult problems in his head and developed the modern computer for more complex problems; von Kármán became the first director of NASA's Jet Propulsion Laboratory, providing the scientific basis for the U.S. Air Force; and Teller was the father of the hydrogen bomb, whose name is now synonymous with the controversial "Star Wars" initiative of the 1980s. Each was fiercely opinionated, politically active, and fought against all forms of totalitarianism. Hargittai, as a young Hungarian physical chemist, was able to get to know some of these great men in their later years, and the depth of information and human interest in The Martians of Science is the result of his personal relationships with the subjects, their families, and their contemporaries.
The synthetic chemistry of carbohydrates has advanced at a scarcely equalled rate in the last 25 years, due to the great interest of biologically active natural products coritaining sugar moieties. It suffices to note that in the review by J. D. Dutcher appearing in "Advances in Carbohydrate Chemistry" vol. 18, 1963, only the structures of less than ten aminodeoxy sugars were reported. This book deals exclusively with a single class of carbohydrates, namely the aminodeoxy sugars of antibiotics, the most popular of which is probably daunosamine, a compound for which more than 20 different synthetic approaches have been reported in the literature since the publication of its structure in 1964. No compound in the 3-amino-2-deoxY-L-hexose series had been prepared by chemical synthesis when we started our synthetic work in this field in 1972 on the wave of the successful therapeutic applications of adriamycin. The compounds with xylo stereochemistry were unknown even in the more easily accessible D-series. The size of this book documents the rapid development of the field. I wish to add that the improvements of chemical methodology reported in. the volume outspan the specific field and are of importance in the design of synthetic approaches to other carbohydrate structures. These also include compounds involved in chemical interactions of great biological interest, but hitherto un explained at the molecular level, such as those related with cell recognition, adhesiveness and differentiation.
A personal acquaintance of Teller's presents the definitive, balanced portrait of the scientist against the backdrop of a turbulent period of history, and reveals the contradictory nature of this complex man in all his strengths, flaws, and brilliance.
Candid Science IV: Conversations with Famous Physicists contains 36 interviews with well-known physicists, including 20 Nobel laureates, Templeton Prize winners, Wolf Prize winners, and other luminaries. Physics has been one of the determining fields of science in the past 100 years, playing a conspicuous role not only in science but also in world politics and economics. These in-depth conversations provide a glimpse into the greatest achievements of physics during the past few decades, featuring stories of the discoveries, and showing the human drama behind them. The greatest physicists are brought into close human proximity as if readers were having a conversation with them. The interviewees span a wide range of scientists, from such early giants as Eugene Wigner and Mark Oliphant to members of the youngest generation such as the 2001 Nobel laureate Wolfgang Ketterle. The list includes famous personalities of our time, such as Steven Weinberg, Leon Lederman, Norman Ramsey, Edward Teller, John Wheeler, Mildred Dresselhaus, Maurice Goldhaber, Benoit Mandelbrot, John Polkinghorne, and Freeman Dyson./a
Wisdom of the Martians of Science refers to five scientists whose brilliance contributed to shaping the modern world. John von Neumann was a pioneer of the modern computer; Theodore von Kármán was the scientist behind the US Air Force; Leo Szilard initiated the development of nuclear weapons; the Nobel laureate Eugene P Wigner was the world's first nuclear engineer; and Edward Teller was the father of the hydrogen bomb. They were born and raised in Budapest, were forced out of Hungary and then from Germany, they became Americans, and devoted themselves to the defense of the United States and the Free World.They contributed significant discoveries to fundamental science ranging from the properties of materials to the application of the symmetry principle in physics, to creating information theory, to game theory. The areas in which we can learn about their wisdom include applications of science to past, present and future real-world needs; defense; education; environment; human nature; humor; politics; religion; weather modification, and others.This book shows the wisdom of the Martians by presenting their thoughts and ideas in their own words and placing them into context. Their wisdom is intriguing, witty, provocative and thought provoking. It extended over many aspects of life and culture that impinge on our existence. While we cannot always agree with what they say, they are never boring. The power of their words and their philosophies will inspire the readers to pursue their own dreams.
This book introduces the reader to the statues, busts, and memorial plaques of scientists, explorers, medicine men and women, and inventors found in the bustling capital of the United Kingdom, London. The former capital of the British Empire, London remains a world center of trade, navigation, finance and many more. It is also a hub of science, the seat of the Royal Society, Royal Institution, Science Museum, British Museum, Natural History Museum, and of great institutions of higher education. The historical figures depicted in these memorials are responsible for creating great institutions, milestone discoveries, contributions to the scientific and technological revolutions, fighting against epidemics, advancing medicine, and contributing to the progress seen during the past four hundred years. This is a guidebook for the visitor and the Londoner alike. It presents memorials that everybody is familiar with and others that the authors discovered during their years of painstaking research. The 750 images and the text, interlarded with anecdotes, is both informative and entertaining.
Three in-depth conversations with the Nobel laureate co-discoverer of the double helix and the first director of the Human Genome Project cover a wide range of topics, including progress in science; the scientist's role in modern life; women in science; scientific ethics; terrorism; religion; multiculturalism; and how genetics may improve human lives. Reflections by further illustrious contributors to the scientific revolution and the author's commentaries provide a glimpse into the thinking of scientists who largely determine the progress of humankind in our time.
Since 1983 I have been delivering lectures at Budapest University that are mainly attended by chemistry students who have already studied quantum chem istry in the amount required by the (undergraduate) chemistry curriculum of the University, and wish to acquire deeper insight in the field, possibly in prepara tion of a master's or Ph.D. thesis in theoretical chemistry. In such a situation, I have the freedom to discuss, in detail, a limited number of topics which I feel are important for one reason or another. The exact coverage may vary from year to year, but I usually concentrate on the general principles and theorems and other basic theoretical results which I foresee will retain their importance despite the rapid development of quantum chemistry. I commonly organize my lectures by treating the subject from the begin ning, without referring explicitly to any actual previous knowledge in quantum chemistry-only some familiarity with its goals, approaches and, to a lesser ex tent, techniques is supposed. I concentrate on the formulae and their derivation, assuming the audience essentially understands the reasons for deriving these results. This book is basically derived from the material of my lectures. The spe cial feature, distinguishing it from most other textbooks, is that all results are explicitly proved or derived, and the derivations are presented completely, step by step. True understanding of a theoretical result can be achieved only if one has gone through its derivation.
Candid Science VI concludes the series by narrating the conversations with famous scientists from the biomedical sciences, chemistry, and physics. There are 31 Nobel laureates and 11 other luminaries among them. The scientists are in the field of biomedical sciences, chemistry and physics./a
Candid Science V: Conversations with Famous Scientists contains 36 interviews with well-known scientists, including 19 Nobel laureates, Wolf Prize winners, and other luminaries. These in-depth conversations provide a glimpse into some of the greatest achievements in science during the past few decades, featuring stories of the discoveries, and showing the human drama behind them. The greatest scientists are brought into close human proximity as if readers were having a conversation with them. This volume departs from the previous ones in that it contains interviews with mathematicians in addition to physicists, chemists, and biomedical scientists. Another peculiarity of this volume is that it includes nine interviews from another project, the collection of the late Clarence Larson, former Commissioner of the Atomic Energy Commission and his wife, Jane (”Larson Tapes”).
The larger part of Theodoret of Cyrus' existant body of work still remains untranslated, and this lack provides a fragmented representation of his thought and has lead to his misrepresentation by ancient, medieval and some modern scholars. Theodoret of Cyrus presents a fresh collection of texts from all periods of his career, including two complete treatises (On the Trinity and On the Incarnation) as well as representative selections from two others (A Cure of Greek Maladies and A Compendium of Heretical Mythification) so far unpublished in English, with a critical introduction concerning his life, legacy and place in the history of Christian doctrine. This book provides the reader with a more balanced picture of Theodoret's often neglected, depreciated and largely inaccessible theological legacy.
Neurobiology of the Epilepsies – From Epilepsy: A Comprehensive Textbook, 3rd Edition, provides a concise, up-to-date review of basic sciences and the latest research advances in epilepsy. Ideal for general neurologists and neurosurgeons, epilepsy/clinical neurophysiology specialists, basic scientists, clinical researchers, and other health care providers with an interest in epilepsy, this new volume by Drs. Istvan Mody, Hal Blumenfeld, Jerome Engel, Jr., Asla Ptkänen, Ivan Soltesz, and Annamaria Vezzani offers comprehensive, authoritative coverage of this critical and complex area of the field.
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