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Mathematics as a Laboratory Tool

Dynamics, Delays and Noise

  • John Milton
  • Toru Ohira

Table of contents

  1. Front Matter
    Pages i-xxv
  2. John Milton, Toru Ohira
    Pages 1-15
  3. John Milton, Toru Ohira
    Pages 17-31
  4. John Milton, Toru Ohira
    Pages 33-56
  5. John Milton, Toru Ohira
    Pages 57-90
  6. John Milton, Toru Ohira
    Pages 91-110
  7. John Milton, Toru Ohira
    Pages 111-135
  8. John Milton, Toru Ohira
    Pages 137-173
  9. John Milton, Toru Ohira
    Pages 175-218
  10. John Milton, Toru Ohira
    Pages 219-257
  11. John Milton, Toru Ohira
    Pages 259-293
  12. John Milton, Toru Ohira
    Pages 295-319
  13. John Milton, Toru Ohira
    Pages 321-358
  14. John Milton, Toru Ohira
    Pages 359-387
  15. John Milton, Toru Ohira
    Pages 389-424
  16. John Milton, Toru Ohira
    Pages 425-457
  17. John Milton, Toru Ohira
    Pages 459-460
  18. Back Matter
    Pages 461-500

About this book

Introduction

The importance of mathematics in the undergraduate biology curriculum is ever increasing, as is the importance of biology within the undergraduate applied mathematics curriculum. This ambitious forward thinking book  strives to make concrete  connections between the two fields at the undergraduate level, bringing in a wide variety of mathematical  methods  such as  signal processing, systems identification, and stochastic differential equations to an undergraduate audience interested in biological dynamics. The presentation stresses a practical hands-on approach: important concepts are introduced using linear first- or second-order differential equations that can be solved using “pencil and paper”; next, these are extended to “real world” applications through the use of computer algorithms written in Scientific Python or similar software.

This book developed from a course taught by Professor John Milton at the University of Chicago and developed and continued over many years with Professor Toru Ohira at the Claremont Colleges. The tone of the book is pedagogical, engaging, accessible, with lots of examples and exercises. The authors attempt to tread a line between accessibility of the text and mathematical exposition. Online laboratories are provided as a teaching aid.  At the beginning of each chapter a number of questions are posed to the reader, and then answered at the conclusion of the chapter.   

 Milton and Ohira’s book is aimed at an undergraduate audience, makes close ties to the laboratory, and includes a range of biological applications, favoring  physiology. This makes it a unique contribution to the literature. This book will be of interest to quantitatively inclined undergraduate biologists, biophysicists and bioengineers and in addition through its focus on techniques actually used by biologists, the authors hope this  text will help shape curricula in biomathematics education going forward.

Review:

"Based on the authors' experience teaching biology students, this book introduces a wide range of mathematical techniques in a lively and engaging style.  Examples drawn from the authors' experimental and neurological studies provide a rich source of material for computer laboratories that solidify the concepts.  The book will be an invaluable resource for biology students and scientists interested in practical applications of mathematics to analyze mechanisms of complex biological rhythms."

 (Leon Glass, McGill University, 2013)

Keywords

cell biology dynamical systems experimental mathematics quantitative neurophysiology quantitiative physiology

Authors and affiliations

  • John Milton
    • 1
  • Toru Ohira
    • 2
  1. 1.W.M. Keck Science DepartmentThe Claremont CollegesClaremontUSA
  2. 2.Graduate School of MathematicsNagoya UniversityNagoyaJapan

Bibliographic information

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