Every life is on fire : how thermodynamics explains the origins of living things

Every life is on fire How thermodynamics explains the origins of living things

Jeremy England

Book - 2020

"Why are we alive? Most things in the universe aren't. And if you trace the evolutionary history of plants and animals back far enough, you will find that, at some point, neither were we. Scientists have wrestled with this problem for centuries, and no one has been able to offer a credible theory. But in 2013, at just 30 years old, biophysicist Jeremy England published a paper that has utterly upended the ongoing study of life's origins. In Every Life Is On Fire, he describes, for the first time, his highly publicized theory known as dissipative adaptation. In any disordered system, matter clumps together and breaks apart, mostly randomly, without consequence. But some of the clumps that form are momentarily better at doing o...ne specific job: dissipating energy. These structures are less likely to fall apart. Over time, they become better at both withstanding the disorder surrounding them and creating copies of themselves. From this deep insight, grounded in thermodynamics, England is able to isolate the emergence of the first life-like behaviors. Scientists have always thought that life began as a stroke of spectacular luck. But in fact, life may be inevitable, a product of the iron physical laws of the universe. England is both a world-class physicist and an ordained rabbi, and so his enquiry doesn't end with the physics of life. We ask questions like "How did life begin?" not just for the fun of scientific inquiry, but because we want a deeper understanding of who we are and why we're here. Even if physics can explain how life-like behaviors emerged, England doubts that reducing life down to the energy flows of a bunch of microscopic particles can ever give us a satisfying answer to what it means to be alive?. He believes that life is fundamentally a philosophical distinction, not a natural one. So before we can seriously look for life's physical origins, we must first make basic choices about what we think life means. This is something researchers often fail to recognize, and it is why, throughout In Every Life Is On Fire, England informs the premises of his theory with a careful exploration of what life is for. For anyone who reads this book, no matter their creed, In Every Life Is On Fire offers a rare work of popular science that explores not just what science does, but how it imbues our lives with meaning"--

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Subjects
Life > Origin.
Thermodynamics.
Published
New York : Basic Books [2020]
Language
English
Main Author
Jeremy England (author)
Edition
First edition
Physical Description
vii, 258 pages : illustrations ; 22 cm
Bibliography
Includes bibliographical references and index.
ISBN
9781541699014
  • Staff and snake
  • Snow and dust
  • River and blood
  • Mountain and sword
  • Flame and tree
  • Wind and breath
  • Voice and word.
Review by Choice Review

This book by physicist Jeremy England (principal research scientist, Georgia Institute of Technology, and senior director in artificial intelligence at GlaxoSmithKline) grapples with basic questions about life: What is the essential difference between being alive and not alive? What, if anything, can physical laws tell us about how life could arise from non-living matter? Early chapters consider and reject physical appearances or physical constituents as adequate to discriminate between living and non-living things. Subsequent chapters introduce concepts of thermodynamics and self-organization, which ground the author's theory of dissipative adaptation. In a system of interacting particles subject to external sources of energy, non-equilibrium thermodynamics entails some systems using and channeling external energy sources to maintain stable organized patterns that would otherwise be overwhelmingly unlikely. The presentation is narrative and even chatty at points, absent any equations or other formalism, but still contains, as England notes, "much abstraction and supposition" likely to be somewhat inaccessible to general readers. An unusual motif is England's repeated invocation of the miracles experienced by Moses: the staff/serpent, the water/blood, and, most centrally, the burning bush, acknowledged as the author's inspiration for his work. This non-technical presentation is not suitable as a textbook or as documentation of research, but would be suitable for specialized collections. Summing Up: Recommended. Faculty and professionals. --David Bantz, University of Alaska

Copyright American Library Association, used with permission.
Review by Publisher's Weekly Review

England, a physicist and rabbi, debuts with an ambitious but disappointing multidisciplinary inquiry into the origin and meaning of life. Interested in the question of how life is differentiated from nonlife, he asks what physics can reveal about "when and how things that are not alive start to become more lifelike." England also moves into the philosophical and theological realms, addressing such questions as "Are humans simply animals, or something more?" with guidance from the Hebrew Bible. However, the bulk of the book deals with physics, including entropy, the nature of time, and energy flow, as well as his own hypothesis "that building blocks with diverse possible response properties to a given drive should spontaneously organize themselves to either reduce their energy absorption or else direct it into powering orderly, regular motion." Amid all this, biology is often lost. Similarly, though each chapter begins with a quotation from Exodus or Genesis, these are only fleetingly integrated into the text. Those attracted by England's lofty premise are unlikely to be satisfied by the diffuse execution. (Sept.)

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Review by Kirkus Book Review

A largely successful effort to explain biology through the principles of physics. Physics depends heavily on reductionism: breaking complex actions down to the simplest mechanism. This holds little appeal to biologists who deal with the messy phenomenon of life. England, a former associate professor of physics at MIT who is now senior director in artificial intelligence at GlaxoSmithKline, begins with a problem: Every living thing has sprung from another living thing, but that "implies that the first life that ever was grew from stuff that was not alive," so the laws of chemistry and physics had to be involved. Life is clearly an emergent property, which England illustrates by the example of a frog put through a blender. Every atom remains, but it is no longer a frog. The author introduces two physical concepts that explain how a complex frog emerges from a few trillion elemental atoms. The first is "macroscopic coarse-graining," which maintains that any system can be described by numbers specifying what every individual particle is doing. This works for simple systems such as crystals; while impossible for even the most primitive organism, it enables scientists to create useful models. The second concept, entropy, measures the probability that a collection of atoms will assemble into something interesting such as a frog. Overwhelmingly, it won't, but the odds are not zero, and they can be calculated. Seen as a measure of disorder, entropy is extremely low in a living organism. Living things keep their entropy low by extracting energy from the environment through eating and respiration. Since total energy in the universe remains constant, this is a complex process that England explains using many simple drawings of curves that go up and down because that's how energy flows. The process is simple, but the details are not. Those who put in the effort to read closely will discover illuminating insights into the physics of life. Copyright (c) Kirkus Reviews, used with permission.

Copyright (c) Kirkus Reviews, used with permission.

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