Long(er)-Form Mathematics

Real Analysis: Papers and Articles

Below are original papers of importance, as well as good expository articles from modern authors.  This page is a work in progress, and if you have something to add to this page, please send it to me!

All chapter and section numbers below, as well as theorems/propositions/etc numbers, are in reference either the second or the “2+epsilon” edition of the book.

Chapter 1

    • We began the book with Zeno’s paradoxes, and it turns out there is a similar paradox in quantum mechanics.  Here’s what I think I have learned:  Physicists argue that a decaying particle (which usually decays continuously and exponentially) in a quantum system exhibits short-time deviations from this usual decay law; in fact, frequent or continuous observations seem to induce these periods in which the  the particle is not decaying exponentially.  But this seems to imply that simply by measuring the system frequently enough, one can inhibit decay.  This give a Zeno-type paradox which is called the quantum Zeno effect. And a paper on this from 1976 has been cited 2,188 times (!!) as of this writing.  So it seems important.  That paper is Zeno’s paradox in quantum theory and it is by Misra and Sudarshan.  (And if you’re a physicist and I did a laughable job at explaining this, please let me know.)
  • The (translated) 1874 paper entitled On a Property of the Collection of All Real Algebraic Numbers was Georg Cantor’s first paper on set theory.  In this paper he proves “Cantor’s revolutionary discovery” that the real numbers are not countable, and hence that there are multiple infinities; in the book this is Theorem 2.9.  It does not his his diagonalization argument, though, as that would come later.  This paper also proves the existence of transcendental numbers.  The paper is short but exceptional.  It even his its own Wikipedia page that is longer than many biographical pages.
  • The original proof that the reals are uncountable is different than the standard proof today, which is by Cantor’s diagonalization argument, and is the book’s proof of Theorem 2.9. Cantor’s original (untranslated) paper of this argument is provided here.  If you have a translated version (especially a PDF), please send it to me!
  • Georg Cantor’s 1874 paper, Über eine Eigenschaft des Inbegriffes aller reellen algebraischen Zahlen (“On a Property of the Class of All Real Algebraic Numbers”), introduced the groundbreaking proof that the real numbers are uncountable and that the algebraic numbers are countable. In fewer than 5 pages, this paper laid the foundation for modern set theory and the study of infinity. Local English Link. Local Original German Link.
  • For more on Question 1 of the Open Questions on page 63, see Combinatorial Cardinal Characteristics of the Continuum by Adreas Blass.
  • On Page 108 there is a discussion on now the axiom of completeness, with which we started the whole theory in Chapter 1, is equivalent to several of the other major theorems that we proved later on.  For a survey of all these, check out Toward a More Complete List of Completeness Axioms by Holger Teismann (pdf file at bottom of this page).  Also see Real Analysis in Reverse by James Propp.
  • Section 5.4 is called The Greatest Definition in Mathematics, but great definitions don’t always come out of nowhere.  To see where the definition of compactness (Definition 5.16) came from, check out A Pedagogical History of Compactness by Raman-Sundström.