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The Universal Spacetime Theory (UST) is the main subject of this book. It attempts to answer some very interesting questions related to the science and philosophy: * What is the origin of the Universe? * How was the Universe created out of nothing? * What are the structure and properties of ordinary matter that makes up less than 5%%%% of the Universe? * What are the structure and properties of dark matter that occupies about 27%%%% of the Universe? * What are the structure and properties of the dark energy that occupies roughly 68%%%% of the Universe? * Is the communication possible with superluminal velocity
This book describes some of the frontier problems of cosmology: our almost total ignorance of what the Universe is made up of, the mystery of its origin and its end. The book starts with a description of the historical events that led to the construction of the Big Bang model together with the stages that transformed the Universe from a very hot place to a very cold one, full with the structures that we observe today. These structures (stars, galaxies, etc.) constitute only 5% of the contents of the Universe. Concerning the remaining 95%, dubbed dark matter and dark energy, we know very little, and we have only indirect evidence of their existence. The text describes the story and the protagonists who showed the need for the existence of this 'missing matter', the observations, and puzzles they had to solve to understand that dark matter was not ordinary matter. The book describes the hunt for dark matter, carried out with instruments operating in space, on the Earth's surface, and in laboratories built in the bowels of the Earth. It also describes dark energy, which manifests itself in the accelerated expansion of the Universe, and appeared only a few billions of years ago. The book discusses why dark energy must exist and what its existence implies, especially for the future and the end of our Universe.
Advances made by physicists in understanding matter, space, and time and by astronomers in understanding the universe as a whole have closely intertwined the question being asked about the universe at its two extremesâ€"the very large and the very small. This report identifies 11 key questions that have a good chance to be answered in the next decade. It urges that a new research strategy be created that brings to bear the techniques of both astronomy and sub-atomic physics in a cross-disciplinary way to address these questions. The report presents seven recommendations to facilitate the necessary research and development coordination. These recommendations identify key priorities for future scientific projects critical for realizing these scientific opportunities.
Do you want to learn about the physical origin of the Universe, but don’t have the rest of eternity to read up on it? Do you want to know what scientists know about where you and your planet came from, but without the science blinding you? ‘Course you do – and who better than For Dummies to tackle the biggest, strangest and most wonderful question there is! The Origins of the Universe For Dummies covers: Early ideas about our universe Modern cosmology Big Bang theory Dark matter and gravity Galaxies and solar systems Life on earth Finding life elsewhere The Universe’s forecast
The book provides a broad overview of what we currently know about the Origin and Evolution of the Universe. The goal is to be scientifically comprehensive but concise. We trace the origins from the Big Bang and cosmic expansion, to the formation of galaxies, heavy elements, stars and planets as abodes for life. This field has made stunning progress since the first edition of this book. At that time, there were no known planets outside of our own Solar System (compared with the many thousands currently being studied). The origin of massive black holes was pure speculation (compared with the very recent detection of the first gravitational waves from space, produced by the cataclysmic merger of two surprisingly large black holes). And the most important energy in the Universe, now known as the Dark Energy which is accelerating the expansion, had not been discovered. We aim to bring lay readers with an interest in science 'up to speed' on all of these key discoveries that are part of the panorama of cosmic evolution, which has ultimately lead to our existence on Earth.
This book describes some of the frontier problems of cosmology: our almost total ignorance of what the Universe is made up of, the mystery of its origin and its end. The book starts with a description of the historical events that led to the construction of the Big Bang model together with the stages that transformed the Universe from a very hot place to a very cold one, full with the structures that we observe today. These structures (stars, galaxies, etc.) constitute only 5% of the contents of the Universe. Concerning the remaining 95%, dubbed dark matter and dark energy, we know very little, and we have only indirect evidence of their existence. The text describes the story and the protagonists who showed the need for the existence of this "missing matter", the observations, and puzzles they had to solve to understand that dark matter was not ordinary matter. The book describes the hunt for dark matter, carried out with instruments operating in space, on the Earth's surface, and in laboratories built in the bowels of the Earth. It also describes dark energy, which manifests itself in the accelerated expansion of the Universe, and appeared only a few billions of years ago. The book discusses why dark energy must exist and what its existence implies, especially for the future and the end of our Universe.
'Clear and compact ... It's hard to fault as a brief, easily digestible introduction to some of the biggest questions in the Universe' Giles Sparrow, BBC Four's The Sky at Night , Best astronomy and space books of 2019: 5/5 All the matter and light we can see in the universe makes up a trivial 5 per cent of everything. The rest is hidden. This could be the biggest puzzle that science has ever faced. Since the 1970s, astronomers have been aware that galaxies have far too little matter in them to account for the way they spin around: they should fly apart, but something concealed holds them together. That 'something' is dark matter - invisible material in five times the quantity of the familiar stuff of stars and planets. By the 1990s we also knew that the expansion of the universe was accelerating. Something, named dark energy, is pushing it to expand faster and faster. Across the universe, this requires enough energy that the equivalent mass would be nearly fourteen times greater than all the visible material in existence. Brian Clegg explains this major conundrum in modern science and looks at how scientists are beginning to find solutions to it.
This book hypothesizes the existence of a trinity of subatomic Builder particles that manage the growth and expansion of the post-Creation universe via three elemental long-range forces. Gravitons mediate the relatively weak gravitational force, which draws objects together; photons mediate its opposite, the photational force that pushes objects apart; and magnetons (along with their parent particles, neutrinos) mediate the powerful inductive attractive force. Drawing on recent discoveries in the fields of astronomy, astrophysics, and particle physics, Halza carefully combines classic mechanics with its quantum counterpart to draw conclusions about underpinnings of our Universe that are both Biblically acceptable and scientifically plausible. Extrapolating from undisputed physical law and counterintuitive subatomic interactions alike, he goes on to explain why the inductive force obviates the need for the hypothetic dark matter that some cosmologists add to their theories of the universe in order to balance their equationsbased on the misconception that gravity acts as the only long-range attractive force in our universe. One of the ramifications of Halzas theory is that the observable matter in the universe may, in fact, be all there isand that it exerts an attractive force six times stronger than previous theories allow for, given the inductive forces presence. Among other things, this suggests that our Sun contains only one-sixth of its previously calculated masswhich has startling implications regarding the Suns age and expected lifetime, and the fate of all life on Earth.
"A Brief Guide to the Cosmos: From the Big Bang to the End of Time" This book is an insightful, understandable, and contemporary perspective on the largest scientific mysteries and provides insight into complex universe-related concerns. The book provides answers to questions about what makes up the majority of the universe, what existed prior to the Big Bang and what exists outside of our universe, whether time always moves forward, whether the universe is infinite or constrained by physical laws, the size of space, and the mass of the universe. This book takes us on an incredible journey through the past, present, and future as well as through physics, astronomy, and mathematics. It demystifies for laymen concepts like antimatter, quarks, black holes, dark energy, and the big bang and completely changes how we view the universe and its fundamental truths. In "The History of the Universe in 1000 Words or Less: The Origin and Fate of the Universe," readers are taken on a concise yet comprehensive journey through the history of the universe, from its mysterious origins to its ultimate fate. Starting with the Big Bang, the book explains how the universe began and how it has evolved over billions of years. From the formation of stars and galaxies to the emergence of life on Earth, the book covers all the major milestones in the history of the cosmos. But the book is not just a collection of facts and figures. It also explores some of the biggest questions in science and philosophy, such as the nature of time, the existence of other universes, and the ultimate fate of the cosmos. Written in a clear, accessible style and filled with colorful illustrations and diagrams, "The History of the Universe in 1000 Words or Less" is the perfect introduction to the history of the universe for anyone who wants to understand the grandeur and wonder of the cosmos in a concise and engaging way. Whether you're a student of science, a curious reader, or just someone who loves to ponder the mysteries of the universe, this book is sure to captivate and inspire you.
"The Grand Sweep of Cosmic History of How we got here" For thousands of years, we − an advanced breed of talking monkeys − survived just like the inhumanly cruel beasts in jungles on a minor planet of a very average star. Immediately something called curiosity ensued which triggered the breath of our perception. We became conscious of our existence, able to find a new way to think of ourselves, started to wonder what makes us exist the way we are. If, like me, you have wondered looking at the star, and tried to make sense of what makes it shine the way it is. Did it shine forever or was there a limit beyond which it cannot or may not shine? And, where did the matter that created it all come from? Which came first, the chicken, or the egg? In other words, which cause makes the matter exist? And, what makes that cause exist. Or maybe, the matter, or the cause that does it exist, existed eternally, and didn't have a beginning. Up until recently, we have tended to shy away from such questions, thinking that finding answers for them is more complex than simply turn our mind blank and say mysterious God is the cause there is something living rather than nothing. Everything that begins to exist must have a creator; If the universe began to exist, then The universe must have a creator. But if the universe prevails in the boundary of understanding in that it neither started nor does it end: it would plainly be. What place, then for a mysterious creator? Cosmology is the branch of science that studies the origin, evolution, and large-scale structure of the universe as a whole. It seeks to understand the physical laws that govern the universe, the nature of dark matter and dark energy, the formation and evolution of galaxies, and the ultimate fate of the universe. The modern understanding of cosmology is based on the theory of general relativity, which was developed by Albert Einstein in 1915. According to this theory, the universe is described as a four-dimensional space-time that is curved by the presence of matter and energy. The curvature of space-time determines the motion of objects in the universe, and it can be calculated using Einstein's equations. One of the key concepts in modern cosmology is the Big Bang theory, which states that the universe began as a hot, dense, and infinitely small point about 13.8 billion years ago. The universe has been expanding and cooling ever since, with the galaxies moving farther and farther apart from each other. Another important concept in cosmology is dark matter, which is a type of matter that does not interact with light or any other form of electromagnetic radiation. Dark matter is believed to make up about 85% of the matter in the universe, and its gravitational effects can be observed through the motions of galaxies and galaxy clusters. Dark energy is another mysterious component of the universe, which is believed to be responsible for the accelerated expansion of the universe in the present era. Dark energy is thought to make up about 70% of the total energy density of the universe, and its nature is not yet well understood. Cosmologists use a variety of observational and theoretical tools to study the universe, including telescopes, satellites, computer simulations, and mathematical models. The field of cosmology is constantly evolving as new observations and discoveries are made, and it is one of the most active and exciting areas of research in modern astrophysics. This book is a comprehensive introduction to the field of cosmology, written for students and general readers interested in learning about the origins, evolution, and structure of the universe. The book covers the historical development of cosmological theories, from the ancient Greeks to the present day, and explores the latest observations and discoveries in astrophysics and cosmology. The book provides a clear and accessible explanation of the principles of general relativity, quantum mechanics, and other scientific theories that underpin our understanding of the universe. It also discusses the role of dark matter and dark energy in the structure and evolution of the universe, and explores the possibility of parallel universes and other speculative theories. This book emphasizes the importance of observational evidence and scientific testing in the development of cosmological theories, and it discusses the challenges and limitations of scientific inquiry in this field. Overall, "From the Beginning of Space and Time: Modern Science and the Mystic Universe" offers a comprehensive and engaging exploration of the mysteries of the universe, and it provides readers with a solid foundation for further study and exploration in this exciting field of science.