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Butterfly in the Quantum World by Indu Satija, with contributions by Douglas Hofstadter, is the first book ever to tell the story of the "Hofstadter butterfly", a beautiful and fascinating graph lying at the heart of the quantum theory of matter. The butterfly came out of a simple-sounding question: What happens if you immerse a crystal in a magnetic field? What energies can the electrons take on? From 1930 onwards, physicists struggled to answer this question, until 1974, when graduate student Douglas Hofstadter discovered that the answer was a graph consisting of nothing but copies of itself nested down infinitely many times. This wild mathematical object caught the physics world totally by surprise, and it continues to mesmerize physicists and mathematicians today. The butterfly plot is intimately related to many other important phenomena in number theory and physics, including Apollonian gaskets, the Foucault pendulum, quasicrystals, the quantum Hall effect, and many more. Its story reflects the magic, the mystery, and the simplicity of the laws of nature, and Indu Satija, in a wonderfully personal style, relates this story, enriching it with a vast number of lively historical anecdotes, many photographs, beautiful visual images, and even poems, making her book a great feast, for the eyes, for the mind and for the soul.
In this largely nontechnical book, eminent physicists and philosophers address the philosophical impact of recent advances in quantum physics. These are shown to shed new light on profound questions about realism, determinism, causality or locality. The participants contribute in the spirit of an open and honest discussion, reminiscent of the time when science and philosophy were inseparable. After the editors’ introduction, the next chapter reveals the strangeness of quantum mechanics and the subsequent discussions examine our notion of reality. The spotlight is then turned to the topic of decoherence. Bohm’s theory is critically examined in two chapters, and the relational interpretation of quantum mechanics is likewise described and discussed. The penultimate chapter presents a proposal for resolving the measurement problem, and finally the topic of loop quantum gravity is presented by one of its founding fathers, Carlo Rovelli. The original presentations and discussions on which this volume is based took place under the auspices of the French “Académie des Sciences Morales et Politiques”. The book will appeal to everybody interested in knowing how our description of the world is impacted by the results of the most powerful and successful theory that physicists have ever built.
Galileo Unbound traces the journey that brought us from Galileo's law of free fall to today's geneticists measuring evolutionary drift, entangled quantum particles moving among many worlds, and our lives as trajectories traversing a health space with thousands of dimensions. Remarkably, common themes persist that predict the evolution of species as readily as the orbits of planets or the collapse of stars into black holes. This book tells the history of spaces of expanding dimension and increasing abstraction and how they continue today to give new insight into the physics of complex systems. Galileo published the first modern law of motion, the Law of Fall, that was ideal and simple, laying the foundation upon which Newton built the first theory of dynamics. Early in the twentieth century, geometry became the cause of motion rather than the result when Einstein envisioned the fabric of space-time warped by mass and energy, forcing light rays to bend past the Sun. Possibly more radical was Feynman's dilemma of quantum particles taking all paths at once — setting the stage for the modern fields of quantum field theory and quantum computing. Yet as concepts of motion have evolved, one thing has remained constant, the need to track ever more complex changes and to capture their essence, to find patterns in the chaos as we try to predict and control our world.
This timeless exploration of the work of the great physicists of the early 20th century employs analogies, examples, and imaginative insights rather than computations to explain the dramatic impact of quantum physics on classical theory. Topics include Pauli's exclusion principle, Schroedinger's wave equation, Heisenberg's uncertainty principle, and many other concepts. 1959 edition.
This open access book chronicles the rise of a new scientific paradigm offering novel insights into the age-old enigmas of existence. Over 300 years ago, the human mind discovered the machine code of reality: mathematics. By utilizing abstract thought systems, humans began to decode the workings of the cosmos. From this understanding, the current scientific paradigm emerged, ultimately discovering the gift of technology. Today, however, our island of knowledge is surrounded by ever longer shores of ignorance. Science appears to have hit a dead end when confronted with the nature of reality and consciousness. In this fascinating and accessible volume, James Glattfelder explores a radical paradigm shift uncovering the ontology of reality. It is found to be information-theoretic and participatory, yielding a computational and programmable universe.
Stenger alternates his discussions of popular spirituality with a survey of what the findings of 20th-century physics actually mean in laypersons terms--without equations.
The God Gametes theory is a refreshing look at what may be both the meaning of life and the reason for its creation. It argues that life on earth and in fact our human consciousness, are universal entities. A model is presented that assumes our universe is a tiny part of a multiverse, arguing that the multiverse is a hierarchical structure, each level a reproductive system of intelligent living systems on the next higher level. We take a fictional look at our parent species on that next higher level to find they are far more complex creatures than us but their universe is older and will soon run out of fuel, to then die. Parent species know that to preserve their life and the billions of years of heritage they created they must reproduce on a lower multiverse level. This, we believe, is why humans have developed many features such as a large brain that make our survival on earth more difficult. Yet these features have evolved because they are needed by the reproductive system of the parent species. -- from lulu.com.
The shift from scientific materialism to a multidimensional worldview in harmony with the world’s great spiritual traditions • Articulates humanity’s critical choice--to be the last decade of an outgoing, obsolete world, or the first of a new and viable one • Presents a new “reality map” to guide us through the environmental, scientific, and geopolitical upheavals we are experiencing Our world is in a Macroshift. The reality we are experiencing today is a substantially new reality--climate change, global corporations, industrialized agriculture--challenging us to change with our rapidly changing world, lest we perish. In this book, Ervin Laszlo presents a new “reality map” to guide us through the world shifts we are experiencing--the problems, opportunities, and challenges we face individually as well as collectively--in order to help us understand what we must do during this time of great transition. Science’s cutting edge now views reality as broader, as multiple universes arising in a possibly infinite meta-universe, as well as deeper, extending into dimensions at the subatomic level. Laszlo shows that aspects of human experience that had previously been consigned to the domain of intuition and speculation are now being explored with scientific rigor and urgency. There has been a shift in the materialistic scientific view of reality toward the multidimensional worldview of multiple interconnected realities long known by the world’s great spiritual traditions. By understanding the interconnectedness of our changing world as well as our changing “map” of the world, we can navigate with insight, wisdom, and confidence.
In this cleverly conceived book, physicist Robert Gilmore makes accessible some complex concepts in quantum mechanics by sending Alice to Quantumland-a whole new Wonderland, smaller than an atom, where each attraction demonstrates a different aspect of quantum theory. Alice unusual encounters, enhanced by illustrations by Gilmore himself, make the Uncertainty Principle, wave functions, the Pauli Principle, and other elusive concepts easier to grasp.
The 2008 financial crisis was a reminder to people both inside and outside the Actuarial Profession of just how complex the Financial Services industry has become, and just how tied the World economy presently is to its fortunes. This wide-ranging, non-technical book examines our present economic model, the industry's present function and the appropriateness of the Actuarial Profession's present strategy and direction in the aftermath of that crisis, and in the context of the challenges that lie ahead. The book's central premise is that, far from being a one-off, the 2008 crash is merely a portent of things to come, and that the Profession, the industry it serves, and even the political and economic models under which both presently operate are in need of fundamental reform if they are to equip our society to withstand the challenges that are going to be visited upon it. This book seeks to explore the reasons why, and to open the debate about what shape that reform ought to take. As such it should be of interest not just to actuaries, but to anyone who has an interest in our collective future.