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Accelerating Expansion explores some of the philosophical implications of modern cosmology, focused on the significance that the discovery of the accelerating expansion of the Universe has for our understanding of time, geometry, and physics. The appearance of the cosmological constant in the equations of general relativity allows one to model universes in which space has an inherent tendency towards expansion. This constant, introduced by Einstein but subsequently abandoned by him, returned to centre stage with the discovery of the accelerating expansion. This pedagogically-oriented essay begins with a study of the most basic and elegant relativistic world that involves a positive cosmological constant, de Sitter spacetime. It then turns to the relatives of de Sitter spacetime that dominate modern relativistic cosmology. Some of the topics considered include: the nature of time and simultaneity in de Sitter worlds; the sense in which de Sitter spacetime is a powerful dynamical attractor; the limited extent to which observation can give us information about the topology of space in a world undergoing accelerated expansion; and cosmologists' favourite sceptical worry about the reliability of evidence and the possibility of knowledge, the problem of Boltzmann brains.
The lectures that four authors present in this volume investigate core topics related to the accelerated expansion of the Universe. Accelerated expansion occured in the ?36 very early Universe – an exponential expansion in the in ationary period 10 s after the Big Bang. This well-established theoretical concept had rst been p- posed in 1980 by Alan Guth to account for the homogeneity and isotropy of the observable universe, and simultaneously by Alexei Starobinski, and has since then been developed by many authors in great theoretical detail. An accelerated expansion of the late Universe at redshifts z
The Extravagant Universe tells the story of a remarkable adventure of scientific discovery. One of the world's leading astronomers, Robert Kirshner, takes readers inside a lively research team on the quest that led them to an extraordinary cosmological discovery: the expansion of the universe is accelerating under the influence of a dark energy that makes space itself expand. In addition to sharing the story of this exciting discovery, Kirshner also brings the science up-to-date in a new epilogue. He explains how the idea of an accelerating universe--once a daring interpretation of sketchy data--is now the standard assumption in cosmology today. This measurement of dark energy--a quality of space itself that causes cosmic acceleration--points to a gaping hole in our understanding of fundamental physics. In 1917, Einstein proposed the "cosmological constant" to explain a static universe. When observations proved that the universe was expanding, he cast this early form of dark energy aside. But recent observations described first-hand in this book show that the cosmological constant--or something just like it--dominates the universe's mass and energy budget and determines its fate and shape. Warned by Einstein's blunder, and contradicted by the initial results of a competing research team, Kirshner and his colleagues were reluctant to accept their own result. But, convinced by evidence built on their hard-earned understanding of exploding stars, they announced their conclusion that the universe is accelerating in February 1998. Other lines of inquiry and parallel supernova research now support a new synthesis of a cosmos dominated by dark energy but also containing several forms of dark matter. We live in an extravagant universe with a surprising number of essential ingredients: the real universe we measure is not the simplest one we could imagine.
The Final Theory of Everything, revised and updated in May 2024, reveals for the first time a new ‘theory of everything’ to explain how all aspects of the universe are linked together, and why the universe is the way it is. The holy grail of cosmologists has been to find a master theory that provides a singular, all-encompassing, coherent theoretical framework of physics that fully explains and links together all aspects of the universe. This book reveals precisely that: a grand unification theory that brings together the four forces of nature (gravity, electromagnetism, weak and strong forces) into one single force. Along the way, many spurious concepts and misconceptions about the Universe are busted wide open, made possible by the Final Theory of Everything. For example, the book reveals why dark energy and dark matter are non-existent and unnecessary in the universe. Other mysteries are resolved such as what keeps galaxies together, what’s at the bottom of black holes, and exactly what causes gravity. A special section on the true nature of light reveals how it will be possible one day to put virtual video cameras on the surfaces of planets and stars. This will give us instant movie-like videos of far away planets and stars with no time delays. A technology that is destined to revolutionise mankind's exploration of the cosmos and the hunt for extraterrestrial life. This book is written for a general audience and for scientists & physicists - for anybody wanting to know more about our astonishing Universe and the world we inhabit.
Mainstream physics currently contends that only 4% of our Universe is made of normal matter and energy. The remaining 96% is thought to be mysterious dark matter and dark energy that are not at all understood. This presents a quandary relative to Einstein’s observation: “The most incomprehensible thing about the world is that it is comprehensible.” Using judicious analogies, dry humor, and the established laws of physics, Ron Forth presents a new cosmological paradigm, honouring the principles of classical physics and relativity while examining the astronomical observations and ensuing inferences from a fresh perspective. Beginning by replacing curved spacetime with contoured four-dimensional space-energy, a new theory of gravity is developed. Using logical and mathematical arguments, he explains how forces, inertia, and entropy arise within this framework. Topics including black holes, gravitational waves, unification of the four fundamental forces, and the probabilistic nature of quantum mechanics are touched upon in the context of the model. He shines a light on dark matter and dark energy, potentially dispelling their shadows. A possible ultimate fate of the Universe, a topic of interest to most of its inhabitants, is proposed. Covering the life of the Universe in a compact book, The Forth Dimension may prove revolutionary – or not - but it will hopefully provoke further discussion of our understanding of the Universe. The objective is for professional scientists to consider the implications of the philosophy, hypotheses, and analysis presented. Various tests are proposed to experimentally determine whether the ideas are science or science fiction.
This volume is a collection of ten papers, written by different authors and co-authors (listed in the order of the papers): F. Smarandache, Jun Ye, M. Shabir, M. Ali, M. Naz, F. Yuhua, A. A. Salama, S. Vladutescu, Y. Guo, A. Sengur, S. Broumi, P. Chi, and P. Liu. In first paper, the author proposed Neutrosophic Measure and neutrosophic Integral. Another Form of Correlation Coefficient between Single Valued Neutrosophic Sets and Multiple Attribute Decision-Making Method is proposed in the second paper. Soft Neutrosophic Group is studied in third paper. In fourth paper Neutrosophic Example in Physics is discussed. Similarly in fifth paper Filters via Neutrosophic Crisp Sets are discussed. In paper six, Commnication vs. Information, an Axiomatic Neutrosophic Solution is presented by the authors. A Novel Image Segmentation Algorithm Based on Neutrosophic Filtering and Level Set is given in seventh paper. Paper eight is about to Neutrosophic Crisp Points and Neutrosophic Crisp Ideals. In the next paper Several Similarity Measures of Neutrosophic Sets are discussed. The authors introduced An Extended TOPSIS Method for the Multiple Attribute Decision Making Problems Based on Interval Neutrosophic Sets in the last paper.
In modern science, including theoretical physics, as in the early classical mechanics, the unnatural reversible time of Newton, based on the medieval concept of geometric time by Nicholas Oresme, is still used. This “original sin” of natural sciences has unintended consequences and creates a set of paradoxes and methodological problems for science. The book explores two new models of essentially irreversible time – decelerating cosmological time and irreversible discrete time of a microcosm. It discusses recent astronomical observations that reveal evidence of the cosmological deceleration of the pace of time in the distant cosmos, in the solar system and on earth. The structure of the model of irreversible discrete time of a microcosm, as considered in the book, allows for the existence of both time and anti-time. In particular, the model predicts new uncertainty relations and violation of the mirror symmetry of the integral internal parity of the entire population of micro particles that correspond to current studies of elementary particle physics.
Experts Plebański and Krasiński provide a thorough introduction to the tools of general relativity and relativistic cosmology. Assuming familiarity with advanced calculus, classical mechanics, electrodynamics and special relativity, the text begins with a short course on differential geometry, taking a unique top-down approach. Starting with general manifolds on which only tensors are defined, the covariant derivative and affine connection are introduced before moving on to geodesics and curvature. Only then is the metric tensor and the (pseudo)-Riemannian geometry introduced, specialising the general results to this case. The main text describes relativity as a physical theory, with applications to astrophysics and cosmology. It takes the reader beyond traditional courses on relativity through in-depth descriptions of inhomogeneous cosmological models and the Kerr metric. Emphasis is given to complete and clear derivations of the results, enabling readers to access research articles published in relativity journals.
This wide-ranging collection of essays contains eighteen original articles by authors representing some of the most important recent work on Wittgenstein. It deals with questions pertaining to both the interpretation and application of Wittgenstein’s thought and the editing of his works. Regarding the latter, it also addresses issues concerning scholarly electronic publishing. The collection is accompanied by a comprehensive introduction which lays out the content and arguments of each contribution. Contributors: Knut Erik Tranøy, Lars Hertzberg, Georg Henrik von Wright, Marie McGinn, Cora Diamond, James Conant, David G. Stern, Eike von Savigny, P.M.S. Hacker, Hans-Johann Glock, Allan Janik, Kristóf Nyíri, Antonia Soulez, Brian McGuinness, Anthony Kenny, Joachim Schulte, Herbert Hrachovec, Cameron McEwen.
The State of the Universe annuals provide an annual astronomy review suitable for the popular science-level reader. The 2008 annual covers the year’s astronomical news on topics beyond the Solar System, placing them in the context of the longer-term goals of astronomers and astrophysicists around the world. The book also includes web links for all major news stories, providing a bridge between the public news stories and the actual research web sites.