From Matter to Life: Information and Causality

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Sara Imari Walker (Arizona State University) Paul C. W. Davies (Arizona State University)

From Matter to Life

Information and Causality

Sara Imari Walker (Arizona State University), Paul C. W. Davies (Arizona State University), George F. R. Ellis (University of Cape Town)

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English

Cambridge University Press
23 February 2017

Mathematics & Sciences; Philosophy of science; History of science; Quantum physics (quantum mechanics & quantum field theory); Evolution; Developmental biology

Recent advances suggest that the concept of information might hold the key to unravelling the mystery of life's nature and origin. Fresh insights from a broad and authoritative range of articulate and respected experts focus on the transition from matter to life, and hence reconcile the deep conceptual schism between the way we describe physical and biological systems. A unique cross-disciplinary perspective, drawing on expertise from philosophy, biology, chemistry, physics, and cognitive and social sciences, provides a new way to look at the deepest questions of our existence. This book addresses the role of information in life, and how it can make a difference to what we know about the world. Students, researchers, and all those interested in what life is and how it began will gain insights into the nature of life and its origins that touch on nearly every domain of science.

Edited by: Sara Imari Walker (Arizona State University), Paul C. W. Davies (Arizona State University), George F. R. Ellis (University of Cape Town)
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Dimensions: Height: 235mm, Width: 158mm, Spine: 43mm
Weight: 880g
ISBN: 9781107150539
ISBN 10: 1107150531
Pages: 543
Publication Date: 23 February 2017
Audience: Professional and scholarly , General/trade , Undergraduate , ELT Advanced
Format: Hardback
Publisher's Status: Active

Sara Imari Walker is a theoretical physicist and astrobiologist. She is an Assistant Professor in the Beyond Center for Fundamental Concepts in Science in the School of Earth and Space Exploration, Arizona State University. She is also a Fellow of the Arizona State University-Santa Fe Institute Center for Biosocial Complex Systems, co-founder of the astrobiology-themed social website SAGANet.org, and is a member of the Board of Directors of Blue Marble Space. She is active in public engagement in science, with recent appearances on 'Through the Wormhole' and NPR's Science Friday. Paul C. W. Davies is Regents' Professor and Director of the Beyond Center for Fundamental Concepts in Science at Arizona State University. He is a theoretical physicist, cosmologist and astrobiologist. He has written 30 books, many for the general public. In 1995 he was awarded the Templeton Prize for his work on the deeper meaning of science. He was also awarded the Faraday Prize by the Royal Society, the Kelvin Medal by the Institute of Physics, the Robinson Cosmology Prize, and three honorary degrees. In 2007 he was named a Member of the Order of Australia in the Queen's birthday honours list and in 2011 he received the Bicentenary Medal of Chile. The asteroid 1992 OG was renamed (6870) Pauldavies. George F. R. Ellis, FRS, is Professor Emeritus of Applied Mathematics at the University of Cape Town. He is a relativist and cosmologist who has worked on exact and perturbed cosmological models in general relativity theory and carefully studied observational limits in cosmology. He wrote The Large Scale Structure of Space Time with Steven Hawking. His more recent research relates to the philosophy of cosmology and the emergence of complexity. He has various honorary degrees, and was awarded the Star of South Africa Medal by President Nelson Mandela in 1999 and the Templeton Prize in 2004.

Reviews for From Matter to Life: Information and Causality

'From Matter to Life, by Walker, Davies and Ellis, is an astonishing, important book. What is information? Can information have causal consequences? If so, how? With new mathematics, wide and rigorous, this collection is a powerful springboard with which we can propel our science forward.' Stuart Kauffman FRSC, Mac Arthur Fellow 'The editors of From Matter to Life have complied a series of cross-disciplinary essays that focus on how the science of information can explain the function of living organisms. Contributions are made by noted biologists, chemists, and physicists who research the principles of chemical information. The book begins with the physics of life and other material that supports later findings about chemical principles of how molecular arrangements use an inherent system of information, which explains a broad array of living properties and organismic interactions. Many of the explanations are accompanied with detailed scientific accounts and mathematical formulas... most of the explained science requires some proficiency in chemistry, mathematics, and physics. The chapters are accompanied with ample primary references. This is an eclectic book that is appropriate for more advanced students and faculty, or for philosophy of science libraries.' B. R. Shmaefsky, CHOICE 'Each contribution is written by an expert on the field, in a scientific style and fully referenced to scientific publications ... there is no definite or easy answer to the questions about information as a physical entity or its role in emergence of life from matter, but a number of interesting points are made about the nature of information and its role in physical reality. It is interesting to see the way in which the various disciplines, mainly physics, chemistry, biology, information theory and related fields, but also philosophy and cognitive and social sciences approach the issue. [This book is] a collection of scientific essays on new questions and what the various disciplines have to provide in the approach to give answers. ... It is an interesting read for all those who want their thoughts provoked around the origin of life and what role information can possibly have in it.' Manuel Vogel, Contemporary Physics 'From Matter to Life, by Walker, Davies and Ellis, is an astonishing, important book. What is information? Can information have causal consequences? If so, how? With new mathematics, wide and rigorous, this collection is a powerful springboard with which we can propel our science forward.' Stuart Kauffman FRSC, Mac Arthur Fellow 'The editors of From Matter to Life have complied a series of cross-disciplinary essays that focus on how the science of information can explain the function of living organisms. Contributions are made by noted biologists, chemists, and physicists who research the principles of chemical information. The book begins with the physics of life and other material that supports later findings about chemical principles of how molecular arrangements use an inherent system of information, which explains a broad array of living properties and organismic interactions. Many of the explanations are accompanied with detailed scientific accounts and mathematical formulas... most of the explained science requires some proficiency in chemistry, mathematics, and physics. The chapters are accompanied with ample primary references. This is an eclectic book that is appropriate for more advanced students and faculty, or for philosophy of science libraries.' B. R. Shmaefsky, CHOICE 'Each contribution is written by an expert on the field, in a scientific style and fully referenced to scientific publications ... there is no definite or easy answer to the questions about information as a physical entity or its role in emergence of life from matter, but a number of interesting points are made about the nature of information and its role in physical reality. It is interesting to see the way in which the various disciplines, mainly physics, chemistry, biology, information theory and related fields, but also philosophy and cognitive and social sciences approach the issue. [This book is] a collection of scientific essays on new questions and what the various disciplines have to provide in the approach to give answers. ... It is an interesting read for all those who want their thoughts provoked around the origin of life and what role information can possibly have in it.' Manuel Vogel, Contemporary Physics