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Dr. Euler's Fabulous Formula

Book Description

In the mid-eighteenth century, Swiss-born mathematician Leonhard Euler developed a formula so innovative and complex that it continues to inspire research, discussion, and even the occasional limerick. Dr. Euler's Fabulous Formula shares the fascinating story of this groundbreaking formula—long regarded as the gold standard for mathematical beauty—and shows why it still lies at the heart of complex number theory. In some ways a sequel to Nahin's An Imaginary Tale, this book examines the many applications of complex numbers alongside intriguing stories from the history of mathematics. Dr. Euler's Fabulous Formula is accessible to any reader familiar with calculus and differential equations, and promises to inspire mathematicians for years to come.

Table of Contents

  1. Cover
  2. Half title
  3. Title
  4. Copyright
  5. Dedication
  6. Contents
  7. Preface to the Paperback Edition
  8. What This Book Is About, What You Need to Know to Read It, and WHY You Should Read It
  9. Preface
    1. “When Did Math Become Sexy?”
  10. Introduction
  11. Chapter 1. Complex Numbers (an assortment of essays beyond the elementary involving complex numbers)
    1. 1.1 The “mystery” of −1
    2. 1.2 The Cayley-Hamilton and De Moivre theorems
    3. 1.3 Ramanujan sums a series
    4. 1.4 Rotating vectors and negative frequencies
    5. 1.5 The Cauchy-Schwarz inequality and falling rocks
    6. 1.6 Regular n-gons and primes
    7. 1.7 Fermat’s last theorem, and factoring complex numbers
    8. 1.8 Dirichlet’s discontinuous integral
  12. Chapter 2. Vector Trips (some complex plane problems in which direction matters)
    1. 2.1 The generalized harmonic walk
    2. 2.2 Birds flying in the wind
    3. 2.3 Parallel races
    4. 2.4 Cat-and-mouse pursuit
    5. 2.5 Solution to the running dog problem
  13. Chapter 3. The Irrationality of π2 (“higher” math at the sophomore level)
    1. 3.1 The irrationality of π
    2. 3.2 The R(x)= B(x)ex + A(x) equation, D-operators, inverse operators, and operator commutativity
    3. 3.3 Solving for A(x) and B(x)
    4. 3.4 The value of R(π i)
    5. 3.5 The last step (at last!)
  14. Chapter 4. Fourier Series (named after Fourier but Euler was there first——but he was, alas, partially WRONG!)
    1. 4.1 Functions, vibrating strings, and the wave equation
    2. 4.2 Periodic functions and Euler’s sum
    3. 4.3 Fourier’s theorem for periodic functions and Parseval’s theorem
    4. 4.4 Discontinuous functions, the Gibbs phenomenon, and Henry Wilbraham
    5. 4.5 Dirichlet’s evaluation of Gauss’s quadratic sum
    6. 4.6 Hurwitz and the isoperimetric inequality
  15. Chapter 5, Fourier Integrals (what happens as the period of a periodic function becomes infinite, and other neat stuff)
    1. 5.1 Dirac’s impulse “function”
    2. 5.2 Fourier’s integral theorem
    3. 5.3 Rayleigh’s energy formula, convolution, and the autocorrelation function
    4. 5.4 Some curious spectra
    5. 5.5 Poisson summation
    6. 5.6 Reciprocal spreading and the uncertainty principle
    7. 5.7 Hardy and Schuster, and their optical integral
  16. Chapter 6, Electronics and −1 (technological applications of complex numbers that Euler, who was a practical fellow himself, would have loved)
    1. 6.1 Why this chapter is in this book
    2. 6.2 Linear, time-invariant systems, convolution (again), transfer functions, and causality
    3. 6.3 The modulation theorem, synchronous radio receivers, and how to make a speech scrambler
    4. 6.4 The sampling theorem, and multiplying by sampling and filtering
    5. 6.5 More neat tricks with Fourier transforms and filters
    6. 6.6 Single-sided transforms, the analytic signal, and single-sideband radio
  17. Euler: The Man and the Mathematical Physicist
  18. Notes
  19. Acknowledgments
  20. Index