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Does science have all the answers? Can it even deal with abstract reasoning beyond the world we experience? How can we ensure that the physical world is sufficiently ordered to be intelligible to humans? How can mathematics, a product of human minds, unlock the secrets of the physical universe? Should all such questions be considered inadmissible if science cannot settle them? Metaphysics has traditionally been understood as reasoning beyond the reach of science, sometimes even claiming realities beyond its grasp. Because of this, metaphysics is often contemptuously dismissed by scientists and philosophers who wish to remain within the bounds of what can be scientifically proven. Yet scientists at the frontiers of physics unwittingly engage in metaphysics, as they are now happy to contemplate whole universes that are, in principle, beyond human reach. Roger Trigg challenges those who deny that science needs philosophical assumptions. Trigg claims that the foundations of science themselves have to lie beyond science. It takes reasoning apart from experience to discover what is not yet known and this metaphysical reasoning to imagine realities beyond what can be accessed. “In Beyond Matter, Roger Trigg advances a powerful, persuasive, fair-minded argument that the sciences require a philosophical, metaphysical foundation. This is a brilliant book for newcomers to the philosophy of science and experts alike.” —Charles Taliaferro, professor of philosophy, St. Olaf College
What does physics tell us about metaphysics? Tim Maudlin's philosophical examination of the fundamental structure of the world as presented by physics challenges the most widely accepted philosophical accounts of laws of nature, universals, the direction of time and causation.
Metaphysicians should pay attention to quantum mechanics. Why? Not because it provides definitive answers to many metaphysical questions-the theory itself is remarkably silent on the nature of the physical world, and the various interpretations of the theory on offer present conflicting ontological pictures. Rather, quantum mechanics is essential to the metaphysician because it reshapes standard metaphysical debates and opens up unforeseen new metaphysical possibilities. Even if quantum mechanics provides few clear answers, there are good reasons to think that any adequate understanding of the quantum world will result in a radical reshaping of our classical world-view in some way or other. Whatever the world is like at the atomic scale, it is almost certainly not the swarm of particles pushed around by forces that is often presupposed. This book guides readers through the theory of quantum mechanics and its implications for metaphysics in a clear and accessible way. The theory and its various interpretations are presented with a minimum of technicality. The consequences of these interpretations for metaphysical debates concerning realism, indeterminacy, causation, determinism, holism, and individuality (among other topics) are explored in detail, stressing the novel form that the debates take given the empirical facts in the quantum domain. While quantum mechanics may not deliver unconditional pronouncements on these issues, the range of possibilities consistent with our knowledge of the empirical world is relatively small-and each possibility is metaphysically revisionary in some way. This book will appeal to researchers, students, and anybody else interested in how science informs our world-view.
This book describes the new Circlon Synchronicity philosophy that uses the mechanics of Newton's F=ma for the measurement of energy and matter within a universe of absolute mass, space, time and gravity. The discovery that the electron's mass has been decreasing since the beginning of time reveals the creation of matter in our evolutionary past. This creation story combines the Big Bang theory's measurements with the evolving electrodynamics of circlon shaped electrons, protons and photons. This story begins with red shifted Hubble galaxies and the so called Dark Energy supernovas. Next, the photons of the 2.7˚K Cosmic Blackbody Radiation are created by 2256 decaying neutrons at the end of a stable neutron cloud era. A long time prior to this, all of our electrons and protons were bifurcated from a single anti-Hydrogen atom. This book is illustrated with many circlon models, nuclear structures, charts and equations that depict circlon electrodynamics and the evolution of the universe.
From quantum to biological and digital, here eminent scientists, philosophers and theologians chart various aspects of information.
This book is a collection of essays whose topics center around relations between analytic metaphysics and modern physical theories. The contributions to the volume cover a broad spectrum of issues, ranging from metaphysical implications of selected physical theories (quantum mechanics, quantum field theory, general relativity, string theory etc.), to specific problems in scientifically-oriented analytic metaphysics, such as the problem of emergence and reduction, the part-whole relation, and the question of objecthood, properties and individuality on the fundamental level of reality. The authors of the contributions are philosophers of science, physicists and metaphysicians of international renown, and their work represents the cutting edge in modern metaphysics of physical sciences. Contributors are: Tomasz Bigaj, Jessica Bloom, Nazim Bouatta, Jeremy Butterfield, Adam Caulton, Dennis Dieks, Mauro Dorato, Michael Esfeld, Steven French, Andreas Hüttemann, Marek Kuś, Douglas Kutach, Vincent Lam, Olimpia Lombardi, Kerry McKenzie, Thomas Møller-Nielsen, Matteo Morganti, Ioan Muntean, Dean Rickles, Antonio Vassallo, Jessica Wilson, Christian Wüthrich
The third edition of Quantum Non-Locality and Relativity has been carefully updated to reflect significant developments, including a new chapter covering important recent work in the foundations of physics. A new edition of the premier philosophical study of Bell’s Theorem and its implication for the relativistic account of space and time Discusses Roderich Tumiulka’s explicit, relativistic theory that can reproduce the quantum mechanical violation of Bell’s inequality. Discusses the "Free Will Theorem" of John Conway and Simon Kochen Introduces philosophers to the relevant physics and demonstrates how philosophical analysis can help inform physics
Jennifer Trusted's new book argues that metaphysical beliefs are essential for scientific inquiry. The theories, presuppositions and beliefs that neither science nor everyday experience can justify are the realm of metaphysics, literally `beyond physics'. These basic beliefs form a framework for our activities and can be discovered in science, common sense and religion. By examining the history of science from the eleventh century to the present, this book shows how religious and mystical beliefs, as well as philosophical speculation have had a considerable role in motivating scientists and inspiring scientific inquiry. Physics and Metaphysics presupposes no technical knowledge of either philosophy or science. It is an ideal introduction to science and the important forces that have shaped its history and ideas.
A sophisticated and original introduction to the philosophy of quantum mechanics from one of the world’s leading philosophers of physics In this book, Tim Maudlin, one of the world’s leading philosophers of physics, offers a sophisticated, original introduction to the philosophy of quantum mechanics. The briefest, clearest, and most refined account of his influential approach to the subject, the book will be invaluable to all students of philosophy and physics. Quantum mechanics holds a unique place in the history of physics. It has produced the most accurate predictions of any scientific theory, but, more astonishing, there has never been any agreement about what the theory implies about physical reality. Maudlin argues that the very term “quantum theory” is a misnomer. A proper physical theory should clearly describe what is there and what it does—yet standard textbooks present quantum mechanics as a predictive recipe in search of a physical theory. In contrast, Maudlin explores three proper theories that recover the quantum predictions: the indeterministic wavefunction collapse theory of Ghirardi, Rimini, and Weber; the deterministic particle theory of deBroglie and Bohm; and the conceptually challenging Many Worlds theory of Everett. Each offers a radically different proposal for the nature of physical reality, but Maudlin shows that none of them are what they are generally taken to be.