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Loading... Into the Cool: Energy Flow, Thermodynamics and Life (edition 2006)by Eric D Schneider, Dorion Sagan
Work InformationInto the Cool: Energy Flow, Thermodynamics, and Life by Eric D. Schneider
Chemistry (43) Loading...
Sign up for LibraryThing to find out whether you'll like this book. No current Talk conversations about this book. The transmutation of science into pseudo-poetic baloney. ( ) What a book! This was the first time I have read about thermodynamics, and it has completely shifted my worldview. Into the Cool helps to see the human and non-human systems, through we navigate on a daily basis, against a cosmic backdrop. All these processes, they argue, are fueled by gradient-reduction. Biological systems have the extraordinary tendency to reduce the gradient between the hot sun and cool space by the reproduction of new gradients, which can then be broken down by new parts of the ecosystem. Schneider and Sagan make an effort to tie their natural science into everyday examples, with small excursions to philosophy and literature. Although the book gets technical at times, each page radiates enthusiasm about the wonders of the thermodynamic theory. There are, nevertheless, two flaws with the book. The first is a lack of structure. Chapters vary in length, sections do not always follow logically on one another, the level of detail of explanation can shift abruptly within paragraphs... It seems like the book follows the whims of the authors, with wild associations suddenly popping up in the midst of chapters. It would have helped so much if this book made one argument, which the subsequent chapters would build towards, especially because the material can be challenging at times. A second point of critique would be that to me, as a philosopher, not all the references to philosophy work well. Authors like Spinoza, Kierkegaard and Nietzsche are more or less randomly invoked to be connected to ideas of which I did not always perceive how they would follow from their theories. But well, that's just me, a grumpy philosopher. One could still value their effort to speak of thermodynamics in other terms than strictly mathematical! Overall, read this if you do not yet have an understanding of thermodynamics. It will blow your mind. no reviews | add a review
Scientists, theologians, and philosophers have all sought to answer the questions of why we are here and where we are going. Finding this natural basis of life has proved elusive, but in the eloquent and creative Into the Cool, Eric D. Schneider and Dorion Sagan look for answers in a surprising place: the second law of thermodynamics. This second law refers to energy's inevitable tendency to change from being concentrated in one place to becoming spread out over time. In this scientific tour de force, Schneider and Sagan show how the second law is behind evolution, ecology,economics, and even life's origin. Working from the precept that "nature abhors a gradient," Into the Cool details how complex systems emerge, enlarge, and reproduce in a world tending toward disorder. From hurricanes here to life on other worlds, from human evolution to the systems humans have created, this pervasive pull toward equilibrium governs life at its molecular base and at its peak in the elaborate structures of living complex systems. Schneider and Sagan organize their argument in a highly accessible manner, moving from descriptions of the basic physics behind energy flow to the organization of complex systems to the role of energy in life to the final section, which applies their concept of energy flow to politics, economics, and even human health. A book that needs to be grappled with by all those who wonder at the organizing principles of existence, Into the Cool will appeal to both humanists and scientists. If Charles Darwin shook the world by showing the common ancestry of all life, so Into the Cool has a similar power to disturb--and delight--by showing the common roots in energy flow of all complex, organized, and naturally functioning systems. "Whether one is considering the difference between heat and cold or between inflated prices and market values, Schneider and Sagan argue, we can apply insights from thermodynamics and entropy to understand how systems tend toward equilibrium. The result is an impressive work that ranges across disciplinary boundaries and draws from disparate literatures without blinking."--Publishers Weekly No library descriptions found. |
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Google Books — Loading... GenresMelvil Decimal System (DDC)572.43Natural sciences and mathematics Life Sciences, Biology BiochemistryLC ClassificationRatingAverage:
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