Scale : the universal laws of growth, innovation, sustainability, and the pace of life in organisms, cities, economies, and companies

Scale The universal laws of growth, innovation, sustainability, and the pace of life in organisms, cities, economies, and companies

Geoffrey B. West

Book - 2017

"Visionary physicist Geoffrey West is a pioneer in the field of complexity science, the science of emergent systems and networks... Fascinated by issues of aging and mortality, West applied the rigor of a physicist to the biological question of why we live as long as we do and no longer. The result was astonishing, and changed science, creating a new understanding of energy use and metabolism: West found that despite the riotous diversity in the sizes of mammals, they are all, to a large degree, scaled versions of each other... West's work has been gaming changing for biologists, but then he made the even bolder move of exploring his work's applicability...and applied...[it] to the business and social world."--

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Subjects
Scaling (Social sciences)
Science > Philosophy.
Evolution (Biology)
Evolution > Molecular aspects.
Urban ecology (Sociology)
Social sciences > Methodology.
Sustainable development.
Published
New York : Penguin Press 2017.
Language
English
Main Author
Geoffrey B. West (author)
Physical Description
479 pages : illustrations ; 25 cm
Bibliography
Includes bibliographical references (pages 457-464) and index.
ISBN
9781594205583
  • 1. The Big Picture
  • Introduction, Overview, and Summary
  • We Live in an Exponentially Expanding Socioeconomic Urbanized World
  • A Matter of Life and Death
  • Energy, Metabolism, and Entropy
  • Size Really Matters: Scaling and Nonlinear Behavior
  • Scaling and Complexity: Emergence, Self-Organization, and Resilience
  • You Are Your Networks: Growth from Cells to Whales
  • Cities and Global Sustainability: Innovation and Cycles of Singularities
  • Companies and Businesses
  • 2. The Measure of All Things: An Introduction to Scaling
  • From Godzilla to Galileo
  • Misleading Conclusions and Misconceptions of Scale: Superman
  • Orders of Magnitude, Logarithms, Earthquakes, and the Richter Scale
  • Pumping Iron and Testing Galileo
  • Individual Performance and Deviations from Scaling: The Strongest Man in the World
  • More Misleading Conclusions and Misconceptions of Scale: Drug Dosages from LSD and Elephants to Tylenol and Babies
  • BMI, Quetelet, the Average Man, and Social Physics
  • Innovation and Limits to Growth
  • The Great Eastern, Wide-Gauge Railways, and the Remarkable Isambard Kingdom Brunei
  • William Froude and the Origins of Modeling Theory
  • Similarity and Similitude: Dimensionless and Scale-Invariant Numbers
  • 3. The Simplicity, Unity, and Complexity of Life
  • From Quarks and Strings to Cells and Whales
  • Metabolic Rate and Natural Selection
  • Simplicity Underlying Complexity: Kleiber's Law, Self-Similarity, and Economies of Scale
  • Universality and the Magic Number Four That Controls Life
  • Energy, Emergent Laws, and the Hierarchy of Life
  • Networks and the Origins of Quarter-Power Allometric Scaling
  • Physics Meets Biology: On the Nature of Theories, Models, and Explanations
  • Network Principles and the Origins of Allometric Scaling
  • Metabolic Rate and Circulatory Systems in Mammals, Plants, and Trees
  • Digression on Nikola Tesla, Impedance Matching, and AC/DC
  • Back to Metabolic Rate, Beating Hearts, and Circulatory Systems
  • Self-Similarity and the Origin of the Magic Number Four
  • Fractals: The Mysterious Case of the Lengthening Borders
  • 4. The Fourth Dimension of Life: Growth, Aging, and Death
  • The Fourth Dimension of Life
  • Why Aren't There Mammals the Size of Tiny Ants?
  • And Why Aren't There Enormous Mammals the Size of Godzilla?
  • Growth
  • Global Warming, the Exponential Scaling of Temperature, and the Metabolic Theory of Ecology
  • Aging and Mortality
  • 5. From the Anthropocene to the Urbanocene: A Planet Dominated by Cities
  • Living in Exponentially Expanding Universes
  • Cities, Urbanization, and Global Sustainability
  • Digression: What Exactly Is an Exponential Anyway? Some Cautionary Fables
  • The Rise of the Industrial City and Its Discontents
  • Malthas, Neo-Malthusians, and the Great Innovation Optimists
  • It's All Energy, Stupid
  • 6. Prelude to a Science of Cities
  • Arc Cities and Companies Just Very Large Organisms?
  • St. Jane and the Dragons
  • An Aside: A Personal Experience of Garden Cities and New Town
  • Intermediate Summary and Conclusion
  • 7. Toward A Science of Cities
  • The Scaling of Cities
  • Cities and Social Networks
  • What Are These Networks?
  • Cities: Christalls or Fractals?
  • Cities as the Great Social Incubator
  • How Many Close Friends Do You Really Have? Dunbar and His Numbers
  • Words and Cities
  • The Fractal City: Integrating the Social with the Physical
  • 8. Consequences and Predictions: From Mobility and the Pace of Life to Social Connectivity, Diversity, Metabolism, and Growth
  • The Increasing Pace of Life
  • Life on an Accelerating Treadmill: The City as the Incredible Shrinking Time Machine
  • Commuting Time and the Size of Cities
  • The Increasing Pace of Walking
  • You Are Not Alone: Mobile Telephones as Detectors of Human Behavior
  • Testing and Verifying the Theory: Social Connectivity in Cities
  • The Remarkably Regular Structure of Movement in Cities
  • Overperformers and Underperformers
  • The Structure of Wealth, Innovation, Crime, and Resilience: The Individuality and Ranking of Cities
  • Prelude to Sustainability: A Short Digression on Water
  • The Socioeconomic Diversity of Business Activity in Cities
  • Growth and the Metabolism of Cities
  • 9. Toward a Science of Companies
  • Is Walmart a Scaled-Up Big Joe's Lumber and Google a Great Big Bear?
  • The Myth of Open-Ended Growth
  • The Surprising Simplicity of Company Mortality
  • Requiescant in Pace
  • Why Companies Die, but Cities Don't
  • 10. The Vision of a Grand Unified Theory of Sustainability
  • Accelerating Treadmills, Cycles of Innovation, and Finite Time Singularities
  • Afterword
  • Science for the Twenty-first Century
  • Transdisciplinarity, Complex Systems, and the Santa Fe Institute
  • Big Data: Paradigm 4.0 or Just 3.1?
  • Postscript and Acknowledgments
  • Notes
  • Index
  • List of Illustrations
Review by Publisher's Weekly Review

West, a theoretical physicist and former president of the Santa Fe Institute, argues in this dense yet accessible work that there are simple laws that underlie all complex systems, whether organic entities or human constructs. Animals, plants, economies, cultures, cities, and companies are united by the fact that they come into existence, grow, mature, and decline. West's central conceit in studying these phenomena is scaling: how a system changes when its size changes. He finds that the answer is not obvious, but it can be expressed mathematically. For example, doubling an animal's size increases its energy requirements by only 75%, which remains true whether one looks at a mouse or a whale. The structures of civilization scale similarly, West shows, as he analyzes cities and corporations within this framework. He supports his evidence with a plethora of striking charts and graphs that are notable for their simplicity. Reducing biological and cultural systems to quantifiable data streams has become fashionable, if rightly contentious, but West turns up many fascinating paradoxes in this large, stimulating, and mostly lucid book of Big Ideas. (May) © Copyright PWxyz, LLC. All rights reserved.

(c) Copyright PWxyz, LLC. All rights reserved
Review by Library Journal Review

Creatures and companies have life spans but eventually die; why don't cities? West (physics, Santa Fe Inst., NM; Scaling in Biology) examines scaling laws, or mathematical formulas for how things change with size, to answer such -questions. Most intricate systems, both living and nonliving, in which many individual parts act together, do not scale linearly. That is, when the size of such a system increases, one begins to see economies of scale where bigger is relatively more efficient and where productivity is enhanced with size. West demonstrates that organisms become more efficient the bigger they are, but owing to an imbalance between energy needed for growth and maintenance or repair, they eventually perish. Cities, on the other hand, use proportionately fewer resources: their physical infrastructure grows but their social capital (their "energy" produced) actually increases relative to size, leading to an ability to keep growing indefinitely. This title explores why corporations seem to function more like biological beings than like cities. Ultimately, West calls for developing a comprehensive theory that addresses questions of sustainability and allows us to plan for a future in a multifaceted world. VERDICT This dense, yet compelling work applies mathematical rigor to real-world problems; likely to be of interest to urban planners and entrepreneurs.- Wade M. Lee, Univ. of Toledo Lib. © Copyright 2017. Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.

(c) Copyright Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.
Review by Kirkus Book Review

From a dean of complexity theory comes a sharp consideration of the pace and pattern of life in a universe of "complex adaptive systems."Everything is connected to everything else: thus the great insight of modern ecology. But more, writes theoretical physicist West (Los Alamos National Laboratory and the Santa Fe Institute), there is a "pervasive interconnectedness and interdependency of energy, resources, and environmental, ecological, economic, social, and political systems," and this interconnection gives us something of a grand unified theory of everything. West's book is a succession of charts, graphs, and aha moments, all deeply learned but lightly worn. By the end of the book, readers will understand such oddments as why it is that the hearts of all animals, from mouse to elephant, beat roughly the same number of times across a lifespan and why the pace of life increases so markedly as the population grows (which explains why people walk faster, it turns out, in big cities than out in the countryside). Some of the concepts West explores are much-used elsewhere but rarely so clearly explainede.g., how does a self-organizing system self-organize, and what emerges in the case of emergence? Of overarching concern, of course, is scale: the behavior of sequences of things and events in arithmetic and logarithmic numerical relationships, whether atomic bombs or earthquakes or safe dosages of LSD and metabolic rates. These natural phenomena also have applications in social and economic systems, as West discusses in such matters as the growth of cities and the decline and collapse of companies, which are punished in time for their natural tendency to be "short-sighted, conservative, and not very supportive of innovative or risky ideas." How risky West's ideas are is a matter of interpretation, but there's plenty of news in such things as his conception of the "finite time singularity" that is unfolding all around us. Illuminating and entertainingheady science written for a lay readership, bringing scaling theory and kindred ideas to a large audience. Copyright Kirkus Reviews, used with permission.

Copyright (c) Kirkus Reviews, used with permission.

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