Page 28 of Fermat's Last Theorem

points (dice game) 43

  polynomials 237

  Portraits from Memory (Russell) 160

  prime numbers 70–71

  almost primes 308

  and Fermat’s Last Theorem 99–100

  Germain primes 116

  infinity of 100–101, 102–3

  irregular primes 126–7, 177

  practical applications 103–7

  333,333,331 not prime 178

  twin primes 308

  Principia Mathematica (Russell and Whitehead) 156–7

  probability 43–7

  counter-intuitive 44–5

  Problèmes plaisants et delectables (Bachet) 61

  puzzles, compendiums of 138

  Pythagoras

  abhors irrational numbers 50, 54–5

  at Croton 9–10, 27–8

  death 28

  and mathematical proof 26

  and musical harmony 14–17

  and perfect numbers 12–13

  and study of numbers 7

  travels 7–8

  Pythagoras’ equation 28

  ‘cubed’ version 30–32

  and Fermat’s Last Theorem 32, 65–6

  whole number solutions 28–30

  Pythagoras’ theorem 6–7, 19–20, 26, 333–4

  Pythagorean Brotherhood 9–11, 13, 27–8, 49, 50, 108

  Pythagorean triples 28–30, 65, 338

  quadratic equations 236–7

  quantum physics 162

  quartic equations 237

  quintic equations 237–8, 239–40, 245, 248–9

  Ramanujan, Srinivasa 3

  Raspail, François 242–3

  rational numbers 11

  rearrangement of equations 216

  recipes, mathematical 8, 237

  reductio ad absurdum 49–50, 53–4

  reflectional symmetry 196

  Reidemeister, Kurt 142

  religion, and probability 46

  Reynolds 323

  Ribenboim, Paulo 144

  Ribet, Ken 220, 229, 267, 270–71, 272, 276, 288–9, 304

  Fermat Information Service 282

  and significance of Taniyama–Shimura conjecture 221–3

  Riemann hypothesis 73

  river ratio 17–18

  Rivest, Ronald 104

  Rosetta stone 212

  Rossi, Hugo 46–7

  rotational symmetry 195–6

  Rubin, Professor Karl 268–9, 300

  Russell, Bertrand, 22, 44, 147, 153, 160

  Russell’s paradox 152, 154–7

  St Augustine (of Hippo) 12

  Sam Loyd and his Puzzles: An Autobiographical Review 138

  Samos, Greece 8–9

  Sarnak, Peter 285–6, 291

  Schlichting, Dr F. 144–6

  scientific proof 21–2

  scientific theories 22–3

  scrambling and unscrambling messages 103–5, 168, 170–75

  Segre 314

  Selmer groups 287

  Shamir, Adi 104

  Shimura, Goro 193, 191–5, 202, 203, 206

  relationship with Taniyama 205, 207, 209

  and Taniyama–Shimura conjecture 209–10, 272, 274

  Shimura-Taniyama conjecture see

  Taniyama–Shimura conjecture Silverman, Bob 284

  Sir Isaac Newton Institute, Cambridge 4–5, 266

  Sir Isaac Newton’s Philosophy Explain’d for the Use of Ladies (Algarotti) 112

  6, perfection of 11–12

  Skewes, S. 179–80

  Skewes’s number 180

  sociable numbers 63–4

  Socrates 109

  Somerville, Mary 113

  square, symmetries of 195–6

  square-cube sandwiches 64, 184

  square root of one 93

  square root of two 53–4, 91–2, 312–4

  strings

  and particles 23

  vibrating 15–17, 16

  Suzuki, Misako 207, 208

  symmetry 195–202

  Taniyama, Yutaka 190, 191–5, 202, 203

  death 205, 207–8

  influence of 209

  and Taniyama–Shimura conjecture 202, 204–5

  Taniyama–Shimura conjecture 205, 209–15

  and Fermat’s Last Theorem 216–19, 221–3

  Wiles and 215, 223, 225–31, 232, 258–61, 263–5, 274, 304

  Taniyama-Weil conjecture see

  Taniyama–Shimura conjecture

  Tartaglia, Niccolò 40–41

  Taylor, Richard 285, 292, 293, 296, 297, 299–300

  Thales 26

  Theano 9–10, 107–8

  theorems 21, 71–2

  Theory of Games and Economic Behaviour, The (von Neumann) 167

  13 Lectures on Fermat’s Last Theorem (Ribenboim) 144

  Thomson, J. J. 22

  three-body problem 81

  threeness 152

  tiled surfaces, symmetry of 196–9

  Titchmarsh, E. C. 166

  Tokyo, international symposium (1955) 203

  translational symmetry 196–7

  trichotomy, law of 148

  truels 167, 343

  Turing, Alan Mathison 167–176

  uncertainty principle 161–2

  undecidability theorems 159–63

  von Neumann, John 159, 167

  Wagstaff, Samuel S. 176

  Wallis, John 38, 42, 64

  weighing problem 61, 337–8

  Weil, André 160, 210

  Weil conjecture see Taniyama–Shimura conjecture Weyl, Hermann 149

  Whitehead, Alfred North 156

  whole numbers 11

  Wiener Kreis (Viennese Circle) 157

  Wiles, Andrew xviii, 181, 224, 276, 302

  adolescence and Fermat’s Last Theorem 5–6, 33, 77–8

  graduate student days 180–81, 183

  tackles elliptic equations 183, 184–5, 188, 189

  and Taniyama–Shimura conjecture 215, 223, 225–31, 232, 258–61, 263–5, 274

  uses Galois’s groups 251–3, 258, 296

  announces proof of Fermat’s Last

  Theorem 1–2, 5, 33–5, 34, 266–72

  reaction of media 272–4

  mathematical celebrity 274, 290–91

  submits proof for verification 277–9

  proof flawed 279–91, 293, 296

  proof revised 296–300

  proof published 304–5

  wins Wolf Prize 308

  collects Wolfskehl Prize 308

  and the future 309

  Wiles, Nada 230, 265, 281, 298–9

  Wolf Prize 306

  Wolfskehl, Paul 132, 133–5

  Wolfskehl Prize 135–7, 143–6, 268

  Zagier, Don 254

  zero, function of 58–9

  About the Author

  FERMAT’S LAST THEOREM

  Simon Singh received his PhD from the University of Cambridge. A former BBC producer, he directed the BAFTA award-winning documentary film Fermat’s Last Theorem and wrote the best selling book of the same name. He is also the author of The Code Book and Big Bang.

  Also by the Author

  The Code Book

  Big Bang

  Copyright

  Fourth Estate

  An imprint of HarperCollinsPublishers

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  First published in paperback by Fourth Estate in 2002 (reprinted 4 times)

  First published in Great Britain in 1997 by Fourth Estate

  Copyright © 1997 by Simon Singh

  Foreword copyright © 1997 by John Lynch

  Line illustrations by Jed Mugford

  The right of Simon Singh to be identified as the author of this work has been asserted by him in accordance with the Copyright, Designs and Patents Act 1988.

  A catalogue record for this book is available from the British Library.

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  EPub Edition © OCTOBER 2013 ISBN: 9780007381999

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  Simon Singh, Fermat's Last Theorem

 

 

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