English

Pythagorean Triangles with Repeated Digits-Repeated Bases

General Mathematics 2009-08-27 v1

Abstract

In 1998, in the winter issue of the journal Mathematics and Computer education (see [1]), Monte Zerger posed the following problem. He had noticed the Pythagorean triple (216,630,666);(216)^2+(630)^2=(666)^2. Note that 216=6^3 and 666 is the hypotenuse length. The question was then, whether there existed a digit d and a positive integer k(other than the above); such that d^k is the leglength of a Pythagorean triangle whose hypotenuse length has exactly k digits, each being equal to d. In 1999, F.Luca and P.Bruckman, answered the above question in the negative. In 2001, K.Zelator(see [2]), took this question further and showed that no Pythagorean triangle exists such that one leg has length d^k, while the other leglegth has exactly k digits in its decimal expansion, with each digit bein equal to d. In this work, we explore the above phenomenon from the point of view of number bases other than 10. We prove five Theorems. As an example, in Theorem 1, we prove that there exists no Pythagorean triangle with one of its leglengths being d^k, while the other leglength having exactly k digits in its base 4 expansion; and with digit being equal to d.

Cite

@article{arxiv.0908.3866,
  title  = {Pythagorean Triangles with Repeated Digits-Repeated Bases},
  author = {Habib Muzaffar and Konstantine Zelator},
  journal= {arXiv preprint arXiv:0908.3866},
  year   = {2009}
}

Comments

16 pages, no figures

R2 v1 2026-06-21T13:39:17.198Z