Description

Book Synopsis
How do biological objects communicate, make structures, make measurements and decisions, search for food, i.e., do all the things necessary for survival? Designed for an advanced undergraduate audience, this book uses mathematics to begin to tell that story.

Trade Review
This book tells the story of living processes that change in time and space. Driven by scientific inquiry, methods from partial differential equations, stochastic processes, dynamical systems, and numerical methods are brought to bear on the subject, and their exposition seems effortless in the pursuit of deeper biological understanding. With subjects ranging from spruce budworm populations to calcium dynamics and from tiger bush patterns to collective behavior, this is a must-read for anyone who is serious about modern mathematical biology."" —Mark Lewis, University of Alberta.

""Prof. Keener is one of the Great Minds in Math Biology who has trained generations of fine scientists and mathematicians over the years."" —Leah Edelstein-Keshet, University of British Columbia.

""This is a fantastic book for those of us who teach mathematical modelling of spatiotemporal phenomena in biology, and for anyone who wishes to move into the field. It guides the reader on how one should tackle the art of modelling and, in a very systematic and natural way, introduces many of the necessary mathematical and computational approaches, seamlessly integrating them with the biology. It is a pleasure to read."" —Philip Maini, University of Oxford

""Mathematical Biology has few foundational texts. But this is one."" —Michael C. Reed, Duke University

Table of Contents
  • Background material
  • Conservation-Learning how to count
  • The diffusion equation-Derivations
  • Realizations of a diffusion process
  • Solutions of the diffusion equation
  • Diffusion and reaction
  • The bistable equation-Part I: Derivations
  • The bistable equation-Part II: Analysis
  • Advection and reaction
  • Advection with diffusion
  • Chemotaxis
  • Spatial patterns
  • Dispersal-renewal theory
  • Collective behavior
  • Introduction to Matlab
  • Constants, units, and functions
  • Selected answers to exercises
  • Bibliography
  • Index

Biology in Time and Space A Partial Differential

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    £78.30

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    RRP £87.00 – you save £8.70 (10%)

    Order before 4pm tomorrow for delivery by Thu 25 Jun 2026.

    A Paperback by James P. Keener

    1 in stock


      View other formats and editions of Biology in Time and Space A Partial Differential by James P. Keener

      Publisher: MP-AMM American Mathematical
      Publication Date: 9/30/2021 12:00:00 AM
      ISBN13: 9781470454289, 978-1470454289
      ISBN10: 1470454289

      Description

      Book Synopsis
      How do biological objects communicate, make structures, make measurements and decisions, search for food, i.e., do all the things necessary for survival? Designed for an advanced undergraduate audience, this book uses mathematics to begin to tell that story.

      Trade Review
      This book tells the story of living processes that change in time and space. Driven by scientific inquiry, methods from partial differential equations, stochastic processes, dynamical systems, and numerical methods are brought to bear on the subject, and their exposition seems effortless in the pursuit of deeper biological understanding. With subjects ranging from spruce budworm populations to calcium dynamics and from tiger bush patterns to collective behavior, this is a must-read for anyone who is serious about modern mathematical biology."" —Mark Lewis, University of Alberta.

      ""Prof. Keener is one of the Great Minds in Math Biology who has trained generations of fine scientists and mathematicians over the years."" —Leah Edelstein-Keshet, University of British Columbia.

      ""This is a fantastic book for those of us who teach mathematical modelling of spatiotemporal phenomena in biology, and for anyone who wishes to move into the field. It guides the reader on how one should tackle the art of modelling and, in a very systematic and natural way, introduces many of the necessary mathematical and computational approaches, seamlessly integrating them with the biology. It is a pleasure to read."" —Philip Maini, University of Oxford

      ""Mathematical Biology has few foundational texts. But this is one."" —Michael C. Reed, Duke University

      Table of Contents
      • Background material
      • Conservation-Learning how to count
      • The diffusion equation-Derivations
      • Realizations of a diffusion process
      • Solutions of the diffusion equation
      • Diffusion and reaction
      • The bistable equation-Part I: Derivations
      • The bistable equation-Part II: Analysis
      • Advection and reaction
      • Advection with diffusion
      • Chemotaxis
      • Spatial patterns
      • Dispersal-renewal theory
      • Collective behavior
      • Introduction to Matlab
      • Constants, units, and functions
      • Selected answers to exercises
      • Bibliography
      • Index

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