Galileo's Finger: The Ten Great Ideas of Science (edition 2004)

by Peter Atkins

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Any literate person should be familiar with the central ideas of modern science. In his sparkling new book, Peter Atkins introduces his choice of the ten great ideas of science. With wit, charm, patience, and astonishing insights, he leads the reader through the emergence of the concepts, andthen presents them in a strikingly effective manner. At the same time, he works into his engaging narrative an illustration of the scientific method and shows how simple ideas can have enormous consequences.His choice of the ten great ideas are:* Evolution occurs by natural selection, in which the early attempts at explaining the origin of species is followed by an account of the modern approach and some of its unsolved problems.* Inheritance is encoded in DNA, in which the story of the emergence of an understanding of inheritance is followed through to the mapping of the human genome.* Energy is conserved, in which we see how the central concept of energy gradually dawned on scientists as they mastered the motion of particles and the concept of heat.* All change is the consequence of the purposeless collapse of energy and matter into disorder, in which the extraordinarily simple concept of entropy is used to account for events in the world.* Matter is atomic, in which we see how the concept of atoms emerged and how the different personalities of the elements arise from the structures of their atoms.* Symmetry limits, guides, and drives, in which we see how concepts related to beauty can be extended to understand the nature of fundamental particles and the forces that act between them.* Waves behave like particles and particles behave like waves, in which we see how old familiar ideas gave way to the extraordinary insights of quantum theory and transformed our perception of matter.* The universe is expanding, in which we see how a combination of astronomy and a knowledge of elementary particles accounts for the origin of the universe and its long term future.* Spacetime is curved by matter, in which we see the emergence of the theories of special and general relativity and come to understand the nature of space and time.* If arithmetic is consistent, then it is incomplete, in which we learn the origin of numbers and arithmetic, see how the philosophy of mathematics lets us understand the nature of this most cerebral of subjects, and are brought to the limits of its power.C.P. Snow once said 'not knowing the second law of thermodynamics is like never having read a work by Shakespeare'. This is an extraordinary, exciting book that not only will make you literate in science but give you deep enjoyment on the way.… (more)

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Member:	redfiona
Title:	Galileo's Finger: The Ten Great Ideas of Science
Authors:	Peter Atkins
Info:	Oxford University Press, USA (2004), Paperback, 400 pages
Collections:	Your library
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Tags:	science, non-fiction

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Galileo's Finger: The Ten Great Ideas of Science by Peter Atkins

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Page 1 "Prologue" Atkins seems to believe that the Scientific Method actually is used. "The procedure that gets taught as "The Scientific Method" is entirely misleading. Studying what scientists actually do is far more interesting." (http://www.dharma-haven.org/science/myth-of-scientific-method.htm)

I find that how things are actually discovered is much more interesting than the story that is concocted later to make it sound logical. That was sufficient to cause me to set the book aside for a few years. Now I am putting it back into my to-read queue since the book is about 10 great discoveries. It might even have something interesting about how they were discovered.

Another reviewer recommended [b:A Short History of Nearly Everything|21|A Short History of Nearly Everything|Bill Bryson|http://photo.goodreads.com/books/1320540603s/21.jpg|2305997] as being less dry.

bread2u | Jul 1, 2020 |

On the sites that want you to give a star rating, I've given this a 5. I feel it's a 4.75, but, quite sensibly, they don't let you make such small fractions. The only reason I don't give it the full 5 stars is that there's a few diagrams where you can tell the book was originally printed in colour and not much thought was given the the shade of grey it becomes when you press the grey-scale button, there's a couple of places where an extra diagram would have been a good idea (the section on genetics was crying out for a Punnet square) and there's a couple of minor typos that, although they are small, are in the worst possible places.

Other than that, I loved the book, because it explained some tricky concepts incredibly well, and in a way that meant I could transfer the understanding to other things (I'm thinking particularly of the 4D cube). I was a bit dubious about the structure to start with but, once you got to chapter 6 and 7 it started to make a lot more sense.

Thoroughly recommended. (

)

redfiona | Dec 31, 2013 |

What would you say are the greatest scientific ideas that mankind has discovered? Most of us chemists would say that the notion that matter consists of atoms would have to be one of them, and physical chemist Peter Atkins does not disappoint us on that score. He also treads ground familiar to us when he describes entropy and energy, and evolution and DNA. However, even his remarks about these topics are worth reading, because he demonstrates how important scientific ideas can be explained to an interested layperson. One of the other subjects in his "Top Ten" list sounds as if it might be a topic in a chemistry course, but he brings a broader perspective to "Symmetry" than that, including the gauge symmetries of forces and particles. Another of the great ideas of science has to be the quantum theory (Chapter Seven), for which Symmetry makes a nice introduction. Atkins finishes with two excellent chapters on Cosmology and Spacetime, and what I thought was the most surprising choice, a chapter on Arithmetic: The Limits of Reason. Teachers of chemistry and other sciences will likely have their horizons extended by Galileo's Finger. (

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hcubic | Jan 27, 2013 |

This is a fine attempt to make some advanced ideas accessible to the layman, but I think it comes up a bit short of that goal. The discussions on some seminal ideas are a bit complex, but not unreasonably so. The writing is light-hearted, with some jokes and puns slapped in here and there, in a typical British fashion. There are particularly interesting discussions of Einsteinian spacetime, matter at the atomic and subatomic levels and a good overview of genetics, but the chapter on mathematics was a bit over the top. It tried to show the difficulty of formulating a logic system from a few basic axioms, or assumptions, a la Euclid's Planar Geometry, but it just serves up a confusing mish mash of set theory summaries that do more harm than good. I still enjoyed reading it, and it would make a fine choice for a bookshelf spot near you, as long as you are interested and moderately well versed in the sciences. (

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DirtPriest | Aug 16, 2011 |

Chemistry professor Atkins examines the epochal ideas of science, including evolution, the role of DNA in heredity, entropy, the atomic structure of matter, symmetry, wave-particle duality, the expansion of the universe and the curvature of spacetime. Exploring the history of these concepts from the ancient Greeks onward, the chapters amount to case studies in the power of the Galilean paradigm of the "isolation of the essentials of a problem," and mathematical theorising disciplined by real-world experiment, as humanity's understanding moves from armchair speculation and observational lore to testable theories of great explanatory power. Atkins presents this progress as a search for evermore fundamental abstractions: DNA emerges as the fleeting physical instantiation of immortal information; thermodynamics is a universal tendency to disorder; and much of physics itself a logical corollary of pure geometry. Writing in lucid, engaging prose illustrated with many ingenious diagrams, Atkins often succeeds brilliantly in conveying the deep conceptual foundations of scientific disciplines to readers lacking a mathematical background. He falters a little, like most science popularizers, at the frontiers of modern physics, where things get very abstract indeed. Atkins's examples are excellent and his prose a marvel of economy and the elegant style, wide-ranging scope, and unusually high ratio of enlightening explanation to baffling abstruseness make this book one of the best of its kind.

Condensing scientific knowledge into 10 concepts, such as the conservation of energy, Atkins offers a primer on the essential ideas of Western science. This is a work descriptive of abstract principles,and it is easily grasped, for Atkins, in the humouring manner of a popular lecturer at the blackboard, illustrates underlying connections that unite dissimilar phenomena, such as waves and particles inquantum mechanics. Although the material does not include equations,readers still must acclimatise to significant brain-bending, especially on the subject of symmetry and on dimensions beyond our familiar three, crucial to getting a grip on the string and M-theory so current with physicists. Where does Galileo's finger figure in this? Reclining in a cup displayed in Florence, it represents to its curators and to Atkins the scientific method, the way of "unpacking" (in the author's recurring phrase) the appearances of nature to reveal its essence.

antimuzak | Oct 16, 2007 |

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Any literate person should be familiar with the central ideas of modern science. In his sparkling new book, Peter Atkins introduces his choice of the ten great ideas of science. With wit, charm, patience, and astonishing insights, he leads the reader through the emergence of the concepts, andthen presents them in a strikingly effective manner. At the same time, he works into his engaging narrative an illustration of the scientific method and shows how simple ideas can have enormous consequences.His choice of the ten great ideas are:* Evolution occurs by natural selection, in which the early attempts at explaining the origin of species is followed by an account of the modern approach and some of its unsolved problems.* Inheritance is encoded in DNA, in which the story of the emergence of an understanding of inheritance is followed through to the mapping of the human genome.* Energy is conserved, in which we see how the central concept of energy gradually dawned on scientists as they mastered the motion of particles and the concept of heat.* All change is the consequence of the purposeless collapse of energy and matter into disorder, in which the extraordinarily simple concept of entropy is used to account for events in the world.* Matter is atomic, in which we see how the concept of atoms emerged and how the different personalities of the elements arise from the structures of their atoms.* Symmetry limits, guides, and drives, in which we see how concepts related to beauty can be extended to understand the nature of fundamental particles and the forces that act between them.* Waves behave like particles and particles behave like waves, in which we see how old familiar ideas gave way to the extraordinary insights of quantum theory and transformed our perception of matter.* The universe is expanding, in which we see how a combination of astronomy and a knowledge of elementary particles accounts for the origin of the universe and its long term future.* Spacetime is curved by matter, in which we see the emergence of the theories of special and general relativity and come to understand the nature of space and time.* If arithmetic is consistent, then it is incomplete, in which we learn the origin of numbers and arithmetic, see how the philosophy of mathematics lets us understand the nature of this most cerebral of subjects, and are brought to the limits of its power.C.P. Snow once said 'not knowing the second law of thermodynamics is like never having read a work by Shakespeare'. This is an extraordinary, exciting book that not only will make you literate in science but give you deep enjoyment on the way.

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