History of Mathematics Clio Mathematicæ the Muse of Mathematical Historiography Craig Smorynski´

History of Mathematics Clio Mathematicæ the Muse of Mathematical Historiography Craig Smorynski´

History of Mathematics Clio Mathematicæ The Muse of Mathematical Historiography Craig Smorynski´ History of Mathematics A Supplement 123 Craig Smorynski´ 429 S. Warwick Westmont, IL 60559 USA [email protected] ISBN 978-0-387-75480-2 e-ISBN 978-0-387-75481-9 Library of Congress Control Number: 2007939561 Mathematics Subject Classification (2000): 01A05 51-Axx, 15-xx c 2008 Springer Science+Business Media, LLC All rights reserved. This work may not be translated or copied in whole or in part without the written permission of the publisher (Springer Science+Business Media, LLC, 233 Spring Street, New York, NY 10013, USA), except for brief excerpts in connection with reviews or scholarly analysis. Use in connection with any form of information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed is forbidden. The use in this publication of trade names, trademarks, service marks, and similar terms, even if they are not identified as such, is not to be taken as an expression of opinion as to whether or not they are subject to proprietary rights. Printed on acid-free paper. 987654321 springer.com Contents 1 Introduction ............................................... 1 1 An Initial Assignment . 1 2 AboutThisBook........................................ 7 2 Annotated Bibliography ................................... 11 1 General Remarks . 11 2 General Reference Works . 18 3 General Biography . 19 4 General History of Mathematics . 21 5 History of Elementary Mathematics . 23 6 SourceBooks........................................... 25 7 Multiculturalism . 27 8 Arithmetic ............................................. 28 9 Geometry .............................................. 28 10 Calculus................................................ 29 11 Women in Science . 30 12 MiscellaneousTopics..................................... 35 13 Special Mention . 36 14 Philately . 38 3 Foundations of Geometry .................................. 41 1 The Theorem of Pythagoras . 41 2 The Discovery of Irrational Numbers . 49 3 TheEudoxianResponse.................................. 59 4 The Continuum from Zeno to Bradwardine . 67 5 Tiling the Plane . 76 6 BradwardineRevisited................................... 83 4 The Construction Problems of Antiquity .................. 87 1 SomeBackground....................................... 87 2 Unsolvability by Ruler and Compass . 89 VI Contents 3 Conic Sections . 100 4 Quintisection . 110 5 AlgebraicNumbers......................................118 6 PetersenRevisited.......................................122 7 ConcludingRemarks.....................................130 5 A Chinese Problem ........................................133 6 The Cubic Equation .......................................147 1 The Solution . 147 2 Examples...............................................149 3 The Theorem on the Discriminant . 151 4 The Theorem on the Discriminant Revisited . 156 5 Computational Considerations . 160 6 OneLastProof .........................................171 7 Horner’s Method ..........................................175 1 Horner’sMethod........................................175 2 Descartes’RuleofSigns..................................196 3 DeGua’sTheorem ......................................214 4 ConcludingRemarks.....................................222 8 Some Lighter Material .....................................225 1 North Korea’s Newton Stamps . 225 2 A Poetic History of Science . 229 3 DrinkingSongs..........................................235 4 ConcludingRemarks.....................................241 A Small Projects .............................................247 1 Dihedral Angles . 247 2 InscribingCirclesinRightTriangles .......................248 3cos9◦ ..................................................248 4 Old Values of π .........................................249 5 Using Polynomials to Approximate π ......................254 6 π `alaHorner...........................................256 7 Parabolas . 257 8 Finite Geometries and Bradwardine’s Conclusion 38 . 257 9 Root Extraction . 260 10 Statistical Analysis . 260 11 The Growth of Science . 261 12 Programming . 261 Index ..........................................................263 1 Introduction 1 An Initial Assignment I haven’t taught the history of mathematics that often, but I do rather like the course. The chief drawbacks to teaching it are that i. it is a lot more work than teaching a regular mathematics course, and ii. in American colleges at least, the students taking the course are not mathematics majors but edu- cation majors— and and in the past I had found education majors to be somewhat weak and unmotivated. The last time I taught the course, however, the majority of the students were graduate education students working toward their master’s degrees. I decided to challenge them right from the start: Assignment.1 In An Outline of Set Theory, James Henle wrote about mathe- matics: Every now and then it must pause to organize and reflect on what it is and where it comes from. This happened in the sixth century B.C. when Euclid thought he had derived most of the mathematical results known at the time from five postulates. Do a little research to find as many errors as possible in the second sentence and write a short essay on them. The responses far exceeded my expectations. To be sure, some of the under- graduates found the assignment unclear: I did not say how many errors they were supposed to find.2 But many of the students put their hearts and souls 1 My apologies to Prof. Henle, at whose expense I previously had a little fun on this matter. I used it again not because of any animosity I hold for him, but because I was familiar with it and, dealing with Euclid, it seemed appropriate for the start of my course. 2 Fortunately, I did give instructions on spacing, font, and font size! Perhaps it is the way education courses are taught, but education majors expect everything to 2 1 Introduction into the exercise, some even finding fault with the first sentence of Henle’s quote. Henle’s full quote contains two types of errors— those which everyone can agree are errors, and those I do not consider to be errors. The bona fide errors, in decreasing order of obviousness, are these: the date, the number of postulates, the extent of Euclid’s coverage of mathematics, and Euclid’s motivation in writing the Elements. Different sources will present the student with different estimates of the dates of Euclid’s birth and death, assuming they are bold enough to attempt such estimates. But they are consistent in saying he flourished around 300 B.C.3 well after the 6th century B.C., which ran from 600 to 501 B.C., there being no year 0. Some students suggested Henle may have got the date wrong because he was thinking of an earlier Euclid, namely Euclid of Megara, who was con- temporary with Socrates and Plato. Indeed, mediæval scholars thought the two Euclids one and the same, and mention of Euclid of Megara in modern editions of Plato’s dialogues is nowadays accompanied by a footnote explicitly stating that he of Megara is not the Euclid.4 However, this explanation is in- complete: though he lived earlier than Euclid of Alexandria, Euclid of Megara still lived well after the 6th century B.C. The explanation, if such is necessary, of Henle’s placing of Euclid in the 6th century lies elsewhere, very likely in the 6th century itself. This was a century of great events— Solon reformed the laws of Athens; the religious leaders Buddha, Confucius, and Pythagoras were born; and western philoso- phy and theoretical mathematics had their origins in this century. That there might be more than two hundred years separating the first simple geometric propositions of Thales from a full blown textbook might not occur to someone living in our faster-paced times. As to the number of postulates used by Euclid, Henle is correct that there are only five in the Elements. However, these are not the only assumptions Euclid based his development on. There were five additional axiomatic asser- tions he called “Common Notions”, and he also used many definitions, some of which are axiomatic in character.5 Moreover, Euclid made many implicit as- sumptions ranging from the easily overlooked (properties of betweenness and order) to the glaringly obvious (there is another dimension in solid geometry). be spelled out for them, possibly because they are taught that they will have to do so at the levels they will be teaching. 3 The referee informs me tht one eminent authority on Greek mathematics now dates Euclid at around 225 - 250 B.C. 4 The conflation of the two Euclid’s prompted me to exhibit in class the crown on the head of the astronomer Claudius Ptolemy in Raphæl’s painting The School of Athens. Renaissance scholars mistakenly believed that Ptolemy, who lived in Alexandria under Roman rule, was one of the ptolemaic kings. 5 E.g. I-17 asserts a diameter divides a circle in half; and V-4 is more-or-less the famous Axiom of Archimedes. (Cf. page 60, for more on this latter axiom.) 1 An Initial Assignment 3 All students caught the incorrect date and most, if not all, were aware that Euclid relied on more than the 5 postulates. Some went on to explain the distinction between the notion of a postulate and that of an axiom,6 a philosophical quibble of no mathematical significance, but a nice point to raise nevertheless. One or two objected that it was absurd to even imagine that all of mathematics could be derived

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