Counting the Mathematical Faces of All Regular Flexagons

T. Bruce McLean, Ionut E. Iacob, John Nelson, Chasen Smith, Homeira Pajoohesh, Thomas Anderson

Research output: Contribution to conferencePresentation

Abstract

Three faculty joined with three students over the last two years to study regular flexagons. Regular flexagons are constructed from straight strips of paper consisting of equilateral triangles and were discovered in 1939 by Arthur Stone when he was a graduate student at Princeton University. It is well known that a regular flexagon of order 3n, n > 0, contains 9n equilateral triangles, and is a mobius band with 3 (3n - 2) half-twists. If only the pinch flex is used it is also known that there are 6n - 3 different mathematical faces. In 1979, with the discovery of the V-flex, the flexagon of order 6 was shown to have 3420 mathematical faces. It is the purpose of this paper to demonstrate an algebraic algorithm that counts the number of mathematical faces for flexagons of order 3n for every natural number n.
Original languageAmerican English
StatePublished - Jan 6 2009
EventJoint Mathematics Meetings of the American Mathematical Society and the Mathematical Association of America -
Duration: Jan 6 2009 → …

Conference

ConferenceJoint Mathematics Meetings of the American Mathematical Society and the Mathematical Association of America
Period01/6/09 → …

Keywords

  • Regular Flexagons
  • V-flex

DC Disciplines

  • Mathematics

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