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Paperback Quantum Enigma: Physics Encounters Consciousness Book

ISBN: 0199753814

ISBN13: 9780199753819

Quantum Enigma: Physics Encounters Consciousness

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Format: Paperback

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Book Overview

In trying to understand the atom, physicists built quantum mechanics, the most successful theory in science and the basis of one-third of our economy. They found, to their embarrassment, that with their theory, physics encounters consciousness. Authors Bruce Rosenblum and Fred Kuttner explain all this in non-technical terms with help from some fanciful stories and anecdotes about the theory's developers. They present the quantum mystery honestly,...

Customer Reviews

4 ratings

Absolute must-read

I just finished reading Quantum Enigma and it has left me stunned. Although I am sure many folks would not agree, I think the topic of this book examines the most important questions facing us humans -- the fundamental nature of consciousness and "reality", and how the two interact. The authors explain how quantum theory clearly shows that microscopic particles behave in a way that does not "make sense". Not only can those particles exist in two places at once, but the theory shows that they only exist when observed by something or someone. And since our everyday macroscopic objects are theoretically made up of those tiny particles, what does that mean about the chair I am sitting on? Is it there only because I am here? As stated on page 156, "There is no way to interpret quantum theory without in some way addressing consciousness." This is not a "pop-quantum" book like the Tao of Physics or The Dancing Wu Li Masters. Nor does it present nonsensical extrapolations of quantum theory to spiritual phenomena, as in the "What the Bleep..." movie. But it does explore realms where most physics text books do not go -- the juncture of physics and philosophy. It shines a bright light on physicists' "skeleton in the closet", the enigmatic meaning of quantum theory. The book is written in a friendly and entertaining manner, without sacrificing depth or seriousness. I enjoyed the photos of the great minds of quantum theory - Bohr, Heisenberg, Einstein, etc - the guys who knew from the start that quantum theory required a different world view. It may be true, in some sense, that nothing exists unless and until "observed"! How can that possibly be? The authors don't provide an answer, but the beauty of this book for me was the courageous and competent way in which it asks the questions. And they freely admit that "The more deeply you think about quantum mechanics, the more strange it seems." No kidding. --Joel Nisson

A Breath of Fresh Air on the Quantum Quandry

I have read several books explaining the various interpretations of quantum theory but none as clear and complete as this one. A little humor thrown in helps too. But I have to disagree with some reviewers who found the book "easy" or "not difficult" to understand. Quantum theory is inherently complex and counterintutive, and the experiments involve concepts that even the layman with a science background will find challenging (at least this one did.) To their great credit, the authors have written about these concepts and experiments comprehensively and more clearly than any similar book I have read. But that doesn't mean the book does not challenge the mind. It does, which means I would not recommend it for those with no science background (and even less so for those many intelligent and well educated people who nevertheless are proud of their scientific ignorance - we have all met them). The author's paucity of jargon is refreshing. For example, the awkward word "nonlocality", though the concept is central to any discussion of quantum phenomena, is never used. The book is perhaps most distinguished by its fascinating, but not unplausible speculations, which scientists who have left their quantum enigma skeletons in their closets are too "scientifically correct" to make. In light of the author's intellectual courage, it is unfortunate that the important body of rigorous, scientific experiments in paraphenomena - which, like quantum experiments, point directly to human consciousness as the basis for future theories of these enigmatic phenomena - are rather glibly dismissed. Of course, the authors are not alone; almost no books written by scientists even mention this important body of scientific work.

Quantum Theory for Everyone

Quantum mechanics is one of the most tested and verified theories of modern physics. However, there are several parts of quantum mechanics that can only be described as bizarre. Of course the physicists discuss and argue the implications of the strange behavior of the quantum world but very few average people fully understand the problems. In Quantum Enigma the authors explain the history of quantum mechanics, how it was developed over the years, and why it is both the most cohesive theory of modern physics and at the same time the most controversial in its application. What makes their book exceptional is how easy it is to understand. Using simple language they are masters at taking a complex subject and explaining it in a way that anyone can understand. Quantum Enigma is highly recommended to anyone who wants to understand the basics of quantum mechanics including the various problems that come along with it.

A Fascinating Inquiry Into An Enigma Of A "Mysterious World"

First, I want assure readers who are not physicists, and even those who are not science-enabled, that they have nothing to fear in reading "Quantum Enigma: Physics Encounters Consciousness." The book is written for the ordinary literate reader and no understanding of physics or general science is assumed by the authors (both physicists). And it is a fascinating read! I should like to think that virtually everyone is somewhat familiar with the term "quantum theory" (or quantum mechanics). Unless one has been living under a rock from birth, with no access to television, newspapers, or magazines, it is hard to escape from having some general idea of quantum physics and the contributions it has made to our modern technological environment. As the authors point out in Chapter Eight: "Quantum mechanics works well in science, but how important is it practically? In fact, one-third of our economy involves products based on quantum mechanics." For those who like percentages instead of fractions, that's 33 and 1/3 percent! That's a lot of products, including such common items as "lasers," transistors, and the Magnetic Resonance Imaging (MRI) machines one hears about in hospital commercials all the time. Have a DVD player? Thank quantum mechanics. Have a new TV, cell phone, or microwave oven? Thank quantum mechanics. When one looks around at all the neat technological devices we have today, it is not difficult to see that "one-third of our economy involves products based on quantum mechanics." Now that we have the importance of quantum mechanics out of the way, why was this book written in the first place? Well, for some physicists at least, the theory, in its deepest understanding, presents a situation which the authors refer to as the "quantum enigma." This "situation" may also be important to us ordinary thinking mortals as well and could be especially so for professional philosophers and students of philosophy. Why? Because the "situation" raises a fundamental question regarding the nature of what we commonly call "reality." But before we get into that matter, we need to ask: What is an "enigma"? My Webster's New World Dictionary defines an enigma this way: "(1) a perplexing statement; riddle; hence, (2) a perplexing, baffling, or seemingly inexplicable matter...," -- and "mystery" may be an appropriate synonym. I think this definition is right on the mark for how the authors use the word "enigma" in their book. But what is the "enigma" discussed by the authors? Quantum mechanics (or theory) is part and parcel of an empirical science we know as "physics" and physics is considered a "physical" or "natural" science, a science which depends on such things as observations, quantitative measurements, systematic experimentation, testable hypotheses, and so on. The job of empirical scientists is to study phenomena "out there" in the natural (or physical) world without regard to any "nonphysical" entities which may or may not actually exist. They deal wit
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