A New Vision of The Early Universe: Spin Coherent Origin Structure, Force, and Matter
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Beschrijving
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For nearly a century, the Big Bang model has told a powerful story about the universe: a hot, dense beginning, followed by expansion, cooling, and the formation of the cosmos we observe today. It explains the cosmic microwave background, the light elements, and the large-scale expansion of space with extraordinary success. Yet behind that success, fundamental questions remain unanswered.Why did supermassive black holes appear so early? Why do particles exist in precise families with specific masses and charges? Where did antimatter go? What is dark energy? And how can particles behave like waves, or photons carry momentum without mass?Modern physics tells us how the universe behaves, but often not what physical structures are doing the work. The laws are clear; the machinery beneath them is not. Instead of focusing only on expansion, this book asks what was expanding. It examines the possibility that the early cosmos was a real, continuous physical medium, capable of sustaining rotation, storing angular momentum, and forming long-lived structure as its density evolved.Across nature, rotation organizes matter: from storms and vortices to galaxies and accretion disks. Because angular momentum is conserved, this organizing principle cannot appear late, it must trace back to the universe's earliest state. By following how spin and coherence evolve within a physically real medium, this book presents a unified narrative connecting supermassive black holes, the cosmic web, particles, charge, mass, and fields to a single underlying process. No new laws are added. No extra pieces are invented. Familiar physics is simply assembled into a more complete picture, one in which the universe's largest structures and smallest particles emerge from the same continuous, conservation-driven story.
For nearly a century, the Big Bang model has told a powerful story about the universe: a hot, dense beginning, followed by expansion, cooling, and the formation of the cosmos we observe today. It explains the cosmic microwave background, the light elements, and the large-scale expansion of space with extraordinary success. Yet behind that success, fundamental questions remain unanswered.Why did supermassive black holes appear so early? Why do particles exist in precise families with specific masses and charges? Where did antimatter go? What is dark energy? And how can particles behave like waves, or photons carry momentum without mass?Modern physics tells us how the universe behaves, but often not what physical structures are doing the work. The laws are clear; the machinery beneath them is not. Instead of focusing only on expansion, this book asks what was expanding. It examines the possibility that the early cosmos was a real, continuous physical medium, capable of sustaining rotation, storing angular momentum, and forming long-lived structure as its density evolved.Across nature, rotation organizes matter: from storms and vortices to galaxies and accretion disks. Because angular momentum is conserved, this organizing principle cannot appear late, it must trace back to the universe's earliest state. By following how spin and coherence evolve within a physically real medium, this book presents a unified narrative connecting supermassive black holes, the cosmic web, particles, charge, mass, and fields to a single underlying process. No new laws are added. No extra pieces are invented. Familiar physics is simply assembled into a more complete picture, one in which the universe's largest structures and smallest particles emerge from the same continuous, conservation-driven story.
AmazonPagina's: 318, Editie: 4., Hardcover, InPerspective Publications
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