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The current theory for the early universe centers around the Standard Model's vision of fields, forces, and particles inexplicably popping into existence within the first second of the Big Bang. That conjecture has worked for many years and has inspired an edifice of theoretical support, but it stretches credulity and leaves too many unanswered questions.What if the initial nugget of energy did not instantaneously turn into particles but was left to expand and lose density? As it thinned, isolated density fluctuations would swirl and grow by accretion, eventually creating thick-density supermassive blackholes, light-density particles, and a thin-density medium of dark energy. The support for this seemingly wild hypothesis is in the observational evidence demonstrating that everything we know of in the universe, including fields, forces, matter, and time, naturally evolves from relationships between those three energy densities. This is the story of those relationships.That profound realization comes through in the Second Edition of A New Vision of the Early Universe. It's the culmination of forty years of research and study by the author, Robert J. Conover. The depth of his research, attention to detail, clear prose, and philosophical approach to analyzing difficult issues conspire to make this a well-respected treatise. The work is supported by numerous citations, quotes, and observations from many leading physicists, cosmologists, and mathematicians.
A New Vision of the Early Universe starts the early expansion of the universe differently, while retaining all the evidence supporting the Big Bang Theory. In the New Vision model, the first things created are supermassive blackholes. The book provides compelling arguments for that scenario, accounting for both their massive size and early existence. The model also easily answers why the universe is so homogeneous (without inflation), and convincingly accounts for our galactic distribution in the form of the cosmic web. It also suggests answers to a dozen other mysteries plaguing cosmology and particle physics that will inspire discussion, debate, and experimentation for years to come. The model is a wellspring for inspirational thinking.A New Vision is the culmination of many years of research and study in the quest to resolve the many questions issuing from the Big Bang Theory. The work was pieced together from the reported experiments, discoveries, and observations of many well-respected particle physicists, cosmologists, and mathematicians. Their observations of how the universe works provided an excellent foundation for a new vision of the early universe.
Abonner på vårt nyhetsbrev og få rabatter og inspirasjon til din neste leseopplevelse.
Ved å abonnere godtar du vår personvernerklæring.