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This is an account of the author's investigation, on behalf of the Canadian government, into the life and ideas of the eccentric genius Nikola Tesla. This is a completely revised and redesigned edition, with a new introduction by the former head of the Tesla Museum, a new chapter and a selection of photographs of Tesla and his work in search of the holy grail of electricity - the transmission of power without loss. As a student in Prague in the 1870s, Tesla "saw" the electric induction motor and patented his discovery, -the first of many inventions whose plans seem to have come to him fully fledged. He worked for the Edison company in Paris before emigrating to the US and battling with Thomas Edison himself to ensure that alternating, rather than direct current, became the standard. He sold his patent in the induction motor for $1 million dollars to George Westinghouse, who used this system for the Niagara Falls Power Project. Moving to Colorado Springs, Tesla worked on resonance, building enormous oscillating towers in experiments which still intrigue today. In later life Tesla became a recluse, bombarding newspapers with eccentric claims, including energy transmissions to other planets. Though he died alone and virtually forgotten, rumours gradually grew that Tesla had made further remarkable discoveries. In an attempt to replicate his experiments, people still build Tesla towers and puzzle over the possible link with low-frequency broadcasts which can supposedly disrupt the weather and affect the human mind.
Originally published in 1979. This reprints the revised and expanded edition of 1996. In this volume, physicists, biologists and chemists, who have been involved in some of the most exciting discoveries in modern scientific thought explore issues which have shaped modern physics and which hint at what may form the next scientific revolution. The major issues discussed are the understanding of time and space, quantum and relativity theories and recent attempts to unite them and related questions in theoretical biology.
This work examines the historical and philosophical strengths and/or weaknesses of current evangelical approaches espousing some forms of post-modernistic historiography and its resultant search for the "historical Jesus." It demonstrates the marked undermining impact these efforts have had on the biblical text, especially the Gospels, as well inerrancy issues. It compares the Jesus Seminar's approach with current evangelical practices of searching in terms of their evidential apologetic impact on the trustworthiness of the Gospels. A number of well-known, contemporary evangelical scholars are involved in the so-called "Third Quest" for the historical Jesus. This book raises serious questions about such an endeavor. CONTRIBUTORS: Norman L. Geisler, Ph.D., Chancellor, Veritas Evangelical Seminary; Distinguished Professor of Apologetics and Theology F. David Farnell, Ph.D., Senior Professor of New Testament, The Master's Seminary Richard G. Howe, Ph.D., Professor of Philosophy and Apologetics, Southern Evangelical Seminary Thomas A. Howe, Ph.D., Professor of Bible and Biblical Languages, Southern Evangelical Seminary William E. Nix, Ph.D., Professor of Historical and Theological Studies, Veritas Evangelical Seminary William C. Roach, Ph.D. candidate, Co-Author of Defending Inerrancy Dennis M. Swanson, D.Min., Vice President for Library and Educational Assessment Norman L. Geisler is a world-renown Christian apologist who has written over 80 books. He is Chancellor of Veritas Evangelical Seminary in Murrieta, California. Dr. Geisler was a key founder of the historic International Council on Biblical Inerrancy (1978) as well as the International Council on Biblical Hermeneutics (1982). F. David Farnell is Senior Professor of New Testament at The Master's Seminary. He was co-editor of The Jesus Crisis (1998) as well as contributor to other books (e.g. Three Views on Origins of the Synoptic Gospels, 2002). He specializes in the impact of historical-critical philosophical ideologies in New Testament Criticism and Interpretation.
F. David Martin (Ph.D. in Philosophy, University of Chicago) taught at Bucknell University until his retirement in 1983. A Fulbright Research scholar in Florence and Rome from 1957 through 1959, he was a recipient of seven other major research grants as well the Christian Lindback. Award for distinguished teaching. Dr. Martin is the author of
One of the foremost scientists and thinkers of our time, David Bohm worked alongside Oppenheimer and Einstein. In Science, Order and Creativity he and physicist F. David Peat propose a return to greater creativity and communication in the sciences. They ask for a renewed emphasis on ideas rather than formulae, on the whole rather than fragments, and on meaning rather than mere mechanics. Tracing the history of science from Aristotle to Einstein, from the Pythagorean theorem to quantum mechanics, the authors offer intriguing new insights into how scientific theories come into being, how to eliminate blocks to creativity and how science can lead to a deeper understanding of society, the human condition and the human mind itself. Science, Order and Creativity looks to the future of science with elegance, hope and enthusiasm.
David Bohm is one of the foremost scientific thinkers of today and one of the most distinguished scientists of his generation. His challenge to the conventional understanding of quantum theory has led scientists to reexamine what it is they are going and his ideas have been an inspiration across a wide range of disciplines. Quantum Implications is a collection of original contributions by many of the world' s leading scholars and is dedicated to David Bohm, his work and the issues raised by his ideas. The contributors range across physics, philosophy, biology, art, psychology, and include some of the most distinguished scientists of the day. There is an excellent introduction by the editors, putting Bohm's work in context and setting right some of the misconceptions that have persisted about the work of David Bohm
"Explores the key events and themes of English history " " " This two-volume narrative of English history draws on the most up-to-date primary and secondary research, encouraging students to interpret the full range of Englands social, economic, cultural, and political past. "A History of England, Volume 1 (Prehistory to 1714), " focuses on the most important developments in the history of England through the early 18th century. Topics include the Viking and Norman conquests of the 11th century, the creation of the monarchy, the Reformation, and the Glorious Revolution of 1688. MySearchLab is a part of the Roberts/Roberts/Bisson program. Research and writing tools, including access to academic journals, help students understand English history in even greater depth. To provide students with flexibility, students can download the eText to a tablet using the free Pearson eText app. 020597984X / 9780205979844 History of England, A, Volume 1 (Prehistory to 1714) Plus MySearchLab with eText -- Access Card Package Package consists of: 0205239927 / 9780205239924 MySearchLab with Pearson eText -- Valuepack Access 0205867774 / 9780205867776 History of England, Volume 1, A (Prehistory to 1714) NOTE: MySearchLab does not come automatically packaged with this text.
Following a longstanding tradition of the Les Houches Summer Schools, this book uses a pedagogically presented and accessible style to treat 2D and 3D turbulence from the experimental, theoretical and computational points of view.
This book reviews the interconnection of cosmology and particle physics over the last decade. It provides introductory courses in supersymmetry, superstring and M-theory, responding to an increasing interest to evaluate the cosmological consequences of these theories. Based on a series of extended courses providing an introduction to the physics of the very early universe, in the light of the most recent advances in our understanding of the fundamental interactions, it reviews all the classical issues (inflation, primordial fluctuations, dark matter, baryogenesis), but also introduces the most recent ideas about what happened at the Big Bang, and before.
Progress in atomic physics has been so vigorous during the past decade that one is hard pressed to follow all the new developments. In the early 1990s the first atom interferometers opened a new field in which we have been able to use the wave nature of atoms to probe fundamental quantum me chanics questions as well as to make precision measurements. Coming fast on the heels of this development was the demonstration of Bose Einstein condensation in dilute atomic vapors which intensified research interest in studying the wave nature of matter, especially in a domain in which "macro scopic" quantum effects (vortices, stimulated scattering of atomic beams) are visible. At the same time there has been much progress in our understanding of the behavior of waves (notably electromagnetic) in complex media, both periodic and disordered. An obvious topic of speculation and probably of future research is whether any new insight or applications will develop if one examines the behavior of de Broglie waves in analogous situations. Finally, our ability to manipulate atoms has allowed us not only to create macroscopically occupied quantum states but also to exercise fine control over the quantum states of a small number of atoms. This has advanced to the study of quantum entanglement and its relation to the theory of measurement and the theory of information. The 1990s have also seen an explosion of interest in an exciting potential application of this fine control: quantum computation and quantum cryptography.
In these lectures, I have discussed a number of basic concepts that provide the necessary background to the current studies of star formation. A ?rst partwas dedicatedto illustrate the conceptofa protostar, discussing con- tions and propertiesof the collapseof a molecular core. A secondpart deals with circumstellardisks. Disks areimportantnot only to the processofstar formation itself, but also because they are in all probability the site where planets form. The age range of pre-main-sequence stars coincides with the timescales for the formation of very large planetesimals, the building blocks of planets. Studies ofdisk properties in pre-main-sequencestars ofdi?erent age, located in star-forming regions of di?erent properties, may shed light on the characteristics of planet formation processes. ISO observations can provide important (in some cases, unique) inf- mation on the various stages of the star and planet formation. I have illustrated in detail some examples, when, to my knowledge, ISO data had been reduced and analyzed. Many other programs exist, and will certainly contribute to our understanding of star formation in the near future
Focused on basic science, this book reviews experiments on metal clusters in two long pedagogically written articles. Interested readers will also find articles ranging from density functional theory to computer simulations of cluster dynamics.
The Humanities Through the Arts examines how values are revealed in the arts while keeping in mind a basic question: "What is art?" It binds us together as a people by revealing the most important values of our culture. This program's genre-based approach offers students the opportunity to understand the relationship of the arts to human values by examining, in-depth, each of the major artistic media: painting, sculpture, architecture, literature, theater, music, dance, photography, cinema, and television and video art. Subject matter, form, and content in each of the arts supply the framework for careful analysis. All of this is achieved with an exceptionally vivid and complete illustration program. The wide range of opportunities for criticism and analysis helps the reader synthesize the complexities of the arts and their interaction with values of many kinds. The text contains detailed discussion and interactive responses to the problems inherent in a close study of the arts and values of our time.
These essays examine the role of belief in the lives of scientists; the connections between science and faith; the roads to peace; the need for just and sustainable societies; the nature of the creative act in both literature and art; and the experience of the artist and writer at work. Among the contributors are science writer Colin Tudge, George Coyne, SJ, Emeritus Director of the Vatican Observatory, and sculptor Antony Gormley.
This book is written for researchers as well as engineers in an industrial environment. Following a longstanding tradition of the Les Houches Summer Schools, all chapters are pedagogically presented and accessible for graduate students. The book treats 2D and 3D turbulence from the experimental, theoretical and computational points of view. The reader will find, for example, comprehensive accounts of fully developed turbulence experiments, simulating deterministically coherent vortices formation, and statistical prediction of industrial flows, and a very complete review of 2D turbulence. Fundamental concepts like topological fluid dynamics in MHD flows or finite-time singularities of the Burgers, Euler and Navier--Stokes equations complete the volume.
This book focusses on basic science, but it also addresses engineers interested in new materials. Experiments on metal clusters are reviewed in two long pedagogically written articles. The theoretical courses cover three main domains: (1) electronic properties of metallic clusters and nanostructures, (2) phases and phase changes of small systems, and (3) chemical processes in nanoscale systems. Furthermore, interested readers, researchers as well as graduate students will find articles on density functional theory, magnetic properties of clusters, and computer simulations of cluster dynamics. In addition, the book addresses chemical processes, pairing correlation effects and also biological systems.
This book, devoted to the study of quantum effects in atomic systems, reviews the state of the art in the fields of Bose--Einstein condensation, quantum information processing, and the problems of propagation of matter waves in complex media. The specific topics include: theory and experiments in Bose--Einstein condensation, theory and experiments on decoherence phenomena in simple quantum systems and the connection to quantum measurement, atom interferometry, quantum computing, multiple scattering problems in atomic physics, quantum and nonlinear optics in a photonic band gap and quantum chaos and atomic physics. Pedagogical in style, the articles address PhD students as well as researchers.
This book reviews the interconnection of cosmology and particle physics over the last decade. It provides introductory courses in supersymmetry, superstring and M-theory, responding to an increasing interest to evaluate the cosmological consequences of these theories. Based on a series of extended courses providing an introduction to the physics of the very early universe, in the light of the most recent advances in our understanding of the fundamental interactions, it reviews all the classical issues (inflation, primordial fluctuations, dark matter, baryogenesis), but also introduces the most recent ideas about what happened at the Big Bang, and before.
In these lectures, I have discussed a number of basic concepts that provide the necessary background to the current studies of star formation. A ?rst partwas dedicatedto illustrate the conceptofa protostar, discussing con- tions and propertiesof the collapseof a molecular core. A secondpart deals with circumstellardisks. Disks areimportantnot only to the processofstar formation itself, but also because they are in all probability the site where planets form. The age range of pre-main-sequence stars coincides with the timescales for the formation of very large planetesimals, the building blocks of planets. Studies ofdisk properties in pre-main-sequencestars ofdi?erent age, located in star-forming regions of di?erent properties, may shed light on the characteristics of planet formation processes. ISO observations can provide important (in some cases, unique) inf- mation on the various stages of the star and planet formation. I have illustrated in detail some examples, when, to my knowledge, ISO data had been reduced and analyzed. Many other programs exist, and will certainly contribute to our understanding of star formation in the near future
The use of concepts borrowed from topology has led to major athances in t,heorctical physics in recent years. hl quailt,uni field theory. the pionvering work \>?. Skyrme and follow ups on classical solut,ions of Yalig AIills Higgs t,heories has lead to the discovery of t,he lion peturbati~e sectors of gauge theory. Topology has also found its way into colidensed matter physics. Clas sification of defects in ordered media bg 11oinotop~ theorg is a well known example (see e.g. Kleman and Toulouse. Les Kouches XXXV, 1980). More recent,ly. topology and condensed matter physics have again met in t,hc realm of the fract,ioiial cluantml Hall effect. Experimental progress in molecular beam epitaxy techniques leading to high mohilit? samples al lowed the disco\;ery of this reniarkablc and now1 phenomelloii. Th~se cle veloprnents lead also to the at,t,rib~~tion of the 1998 Nobel Prize in physics to Laughlin, Storrner and Tsui. The rlotions of fractional charge as well as fractional statistics ran be interpreted by a topological interaction of infinite rauge. So it is natural to find in the Les Houclles series a school devoted to quantum Hall physics. intcrinediate st,atistics and Chem Sirnons theory. This session also included some one dimensional physics topics like t,he Ca,logero Sutkerland model and some Lut,t,inger liquid physics. Polymer physics is also related to topology. 111 this field topological const,rairlts may be described by concept,^ from knot theory and statist'ical physics. Hence this session also included Brownian motion theory related to knot theory.
This utterly engrossing novel begins when a small boy, Isaiah Christensen falls to his death from a Copenhagen rooftop. An accident, the police say. The boy’s neighbour, Smilla Jasperson, a Greenlander living in Denmark, is a world expert on ice and snow and she realises that the boy’s footsteps in the snow show that he ran to his death. When she decides to investigate who might have been chasing him, she embarks on a harrowing journey towards the truth about crimes that go far beyond the death of one child. Travelling back to her native Greenland and its icebound shores, she unearths a terrible secret. Peter Høeg’s novel combines the gripping tensions of the best thriller with the rich characterisation and depth of literary fiction. In Smilla Jasperson, a tough-talking, determined outsider and shrewd misanthropist, Høeg has created one of the most unforgettable female characters in contemporary fiction.
One of the foremost scientists and thinkers of our time, David Bohm worked alongside Oppenheimer and Einstein. In Science, Order and Creativity he and physicist F. David Peat propose a return to greater creativity and communication in the sciences. They ask for a renewed emphasis on ideas rather than formulae, on the whole rather than fragments, and on meaning rather than mere mechanics. Tracing the history of science from Aristotle to Einstein, from the Pythagorean theorem to quantum mechanics, the authors offer intriguing new insights into how scientific theories come into being, how to eliminate blocks to creativity and how science can lead to a deeper understanding of society, the human condition and the human mind itself. Science, Order and Creativity looks to the future of science with elegance, hope and enthusiasm. |
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