## Journey through genius: the great theorems of mathematicsPraise for William Dunham s Journey Through Genius The Great Theorems of Mathematics "Dunham deftly guides the reader through the verbal and logical intricacies of major mathematical questions and proofs, conveying a splendid sense of how the greatest mathematicians from ancient to modern times presented their arguments." Ivars Peterson Author, The Mathematical Tourist Mathematics and Physics Editor, Science News "It is mathematics presented as a series of works of art; a fascinating lingering over individual examples of ingenuity and insight. It is mathematics by lightning flash." Isaac Asimov "It is a captivating collection of essays of major mathematical achievements brought to life by the personal and historical anecdotes which the author has skillfully woven into the text. This is a book which should find its place on the bookshelf of anyone interested in science and the scientists who create it." R. L. Graham, AT&T Bell Laboratories "Come on a time-machine tour through 2,300 years in which Dunham drops in on some of the greatest mathematicians in history. Almost as if we chat over tea and crumpets, we get to know them and their ideas ideas that ring with eternity and that offer glimpses into the often veiled beauty of mathematics and logic. And all the while we marvel, hoping that the tour will not stop." Jearl Walker, Physics Department, Cleveland State University Author of The Flying Circus of Physics |

### What people are saying - Write a review

#### Review: Journey through Genius: The Great Theorems of Mathematics

User Review - Lea - GoodreadsI wrote a bunch of my curriculum from this book. Loved it. Read full review

### Contents

Hippocrates Quadrature of the Lune ca 440 b c | 1 |

Euclids Proof of the Pythagorean Theorem ca 300 b c | 27 |

Euclid and the Infinitude of Primes ca 300 b c | 61 |

Copyright | |

12 other sections not shown

### Other editions - View all

### Common terms and phrases

appeared Archimedes argument binomial Book calculus Cantor's theorem Cardano Carl Friedrich Gauss century Chapter circle circle's circumference classical Common Notion compass and straightedge congruent construct continuum hypothesis contradiction course cube decimal place definition denumerable depressed cubic diameter discovery divides evenly divisor Elements Epilogue equal equation Euclid Euclidean Eudoxus excerpt fact factor Fauvel and Gray Fermat finite formula Gauss genius geometry Georg Cantor Greek harmonic series Heath Heron's Heron's formula Hippocrates infinite series inscribed instance irrationals Isaac Newton Jakob Johann Bernoulli Leibniz length Leonhard Euler likewise logical lune matching mathe mathematicians mathematics modern natural numbers non-Euclidean noted number theory one-to-one correspondence parallel postulate perfect numbers plane polynomial problem proof Proposition proved Pythagorean theorem quadrature radius rational real numbers regular polygons result right angles right triangle segment semicircle sides simple solid solution solving sphere square straight line subset Tartaglia tion transfinite cardinal triangle's whole number