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Why did Einstein tirelessly study unified field theory for more than thirty years? In this book, the author argues that Einstein believed he could find a unified theory of all of nature's forces by repeating the methods he thought he had used when he formulated general relativity. The book discusses Einstein's route to the general theory of relativity, focusing on the philosophical lessons that he learnt. It then addresses his quest for a unified theory for electromagnetism and gravity, discussing in detail his efforts with Kaluza-Klein and, surprisingly, the theory of spinors. From these perspectives, Einstein's critical stance towards the quantum theory comes to stand in a new light. This book will be of interest to physicists, historians and philosophers of science.
First published in 1999. Volume 13 in the 13-volume set titled World Futures General Evolution Studies with a common focus of the emerging field of general evolutionary theory. This volume will expand across disciplines where scholars from new fields will contribute books that propose general evolution theory in novel contexts. The essays are structured with five topics: Approaches to Unification; Concepts of Information; Self-Organizing Systems; Life and Consciousness; Society and Technology.
"A fascinating and thought-provoking story, one that sheds light on the origins of . . . the current challenging situation in physics." -- Wall Street Journal When the fuzzy indeterminacy of quantum mechanics overthrew the orderly world of Isaac Newton, Albert Einstein and Erwin Schröger were at the forefront of the revolution. Neither man was ever satisfied with the standard interpretation of quantum mechanics, however, and both rebelled against what they considered the most preposterous aspect of quantum mechanics: its randomness. Einstein famously quipped that God does not play dice with the universe, and Schröger constructed his famous fable of a cat that was neither alive nor dead not to explain quantum mechanics but to highlight the apparent absurdity of a theory gone wrong. But these two giants did more than just criticize: they fought back, seeking a Theory of Everything that would make the universe seem sensible again. In Einstein's Dice and Schröger's Cat, physicist Paul Halpern tells the little-known story of how Einstein and Schröger searched, first as collaborators and then as competitors, for a theory that transcended quantum weirdness. This story of their quest-which ultimately failed-provides readers with new insights into the history of physics and the lives and work of two scientists whose obsessions drove its progress. Today, much of modern physics remains focused on the search for a Theory of Everything. As Halpern explains, the recent discovery of the Higgs Boson makes the Standard Model-the closest thing we have to a unified theory- nearly complete. And while Einstein and Schröger failed in their attempt to explain everything in the cosmos through pure geometry, the development of string theory has, in its own quantum way, brought this idea back into vogue. As in so many things, even when they were wrong, Einstein and Schröger couldn't help but get a great deal right.
When his physicist mentor is murdered for his possible knowledge about Einstein's Unified Field Theory, physics professor David Swift is swept up by a violent struggle for control of the information and its staggering potential.
The world's simplest book ever written on the Unified Field Theory has now been expanded and revised. Learn the amazing idea Einstein kept secret from the world that led him to write his final scientific masterpiece. Did Einstein fail in his unifying quest? You be the judge by reading this unique and easy-to-read book.
The untold story of Albert Einstein's role as the father of quantum theory Einstein and the Quantum reveals for the first time the full significance of Albert Einstein's contributions to quantum theory. Einstein famously rejected quantum mechanics, observing that God does not play dice. But, in fact, he thought more about the nature of atoms, molecules, and the emission and absorption of light—the core of what we now know as quantum theory—than he did about relativity. A compelling blend of physics, biography, and the history of science, Einstein and the Quantum shares the untold story of how Einstein—not Max Planck or Niels Bohr—was the driving force behind early quantum theory. It paints a vivid portrait of the iconic physicist as he grappled with the apparently contradictory nature of the atomic world, in which its invisible constituents defy the categories of classical physics, behaving simultaneously as both particle and wave. And it demonstrates how Einstein's later work on the emission and absorption of light, and on atomic gases, led directly to Erwin Schrödinger's breakthrough to the modern form of quantum mechanics. The book sheds light on why Einstein ultimately renounced his own brilliant work on quantum theory, due to his deep belief in science as something objective and eternal.
Even the youngest science enthusiasts know the name “Einstein.” To them, it represents intelligence and ingenuity. But they may not know much about Albert Einstein as a man and why his fame reached such great heights. In this comprehensive biography, which draws on new research and personal documents, accessible text tells the fascinating story of Einstein’s life, including his early years in Germany, his achievements that led to the Nobel Prize, and his role in the development of the atomic bomb. Plentiful photographs, explanatory diagrams, and illuminating sidebars add to the reader’s experience, helping to reveal the person and the genius behind the name.
In this book, readers will encounter one of the great discoveries of science, a unified field theory. Albert Einstein dreamt of coming up with such a theory. The unified field theory, which is mentioned in this book, unifies 2 of the fundamental forces of nature, gravitation and electromagnetism. Einstein's special theory of relativity (E=mc2) is shown to be the central link that unifies these forces. The unified field theory can be used to explain all phenomena in the universe. Therefore, it can be applied with to various disciplines (e.g., biology, medicine, physics, astronomy, engineering, etc.) This discovery may one day help mankind live and flourish.
An analysis of one of the three great papers Einstein published in 1905, each of which was to alter forever the field it dealt with. The second of these papers, "On the Electrodynamics of Moving Bodies", established what Einstein sometimes referred to as the "so-called Theory of Relativity". Miller uses the paper to provide a window on the intense intellectual struggles of physicists in the first decade of the 20th century: the interplay between physical theory and empirical data; the fiercely held notions that could not be articulated clearly or verified experimentally; the great intellectual investment in existing theories, data, and interpretations - and associated intellectual inertia - and the drive to the long-sought-for unification of the sciences. Since its original publication, this book has become a standard reference and sourcebook for the history and philosophy of science; however, it can equally well serve as a text on twentieth-century philosophy.
Idealist Alternatives to Materialist Philosophies of Science (ed. Philip MacEwen) makes the case that there are other, and arguably better, ways of understanding science than materialism. Philosophical idealism leads the list of challengers but critical realism and various forms of pluralism are fully articulated as well. To ensure that the incumbent is adequately represented, the volume includes a major defence of materialism/naturalism from Anaxagoras to the present. Contributors include Leslie Armour, John D. Norton, and Fred Wilson with a Foreword by Nicholas Rescher. For anyone interested in whether materialism has a monopoly on science, this volume presents a good case for materialism but a better one for its alternatives.