Saved in:
Bibliographic Details
Main Author: Shihaliev, Logman
Format: Preprint
Published: 2021
Subjects:
Online Access:https://arxiv.org/abs/2111.05118
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866917355587633152
author Shihaliev, Logman
author_facet Shihaliev, Logman
contents The relevance of this paper lies in the fact that it resolves two previously unsolved open problems. In the first part of the paper, a new lemma is proved, from which it follows that if there exists a triangle with integer sides and medians, then there necessarily exists another triangle, not similar to it, with the same properties. In other words, such triangles can exist only in pairs. In the second part of the paper, by transforming known formulas, a new theorem is established in the form of a universal identity valid for all triangles. The focus of this theorem is the proof of the nonexistence of Heronian triangles with three integer medians. We arrive at the conclusion that, among the seven elements of a triangle (three sides, three medians, and the area), only six can be integers. It should be noted that if the above universal identity is considered as a Diophantine equation, then such a Diophantine equation does have solutions. As examples, one may consider the following pair of triangles. A triangle with sides 146,102,52, area 1680, and two integer medians 35 and 97. Also, according to the conditions of the above lemma, there exists another triangle with medians 219,153,78, area 5040, and two integer sides 70 and 194. This version of the article is different from the previous ones because everything has been simplified to the level of a straight-A high school student.
format Preprint
id arxiv_https___arxiv_org_abs_2111_05118
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle There is no Heron triangle with three rational medians
Shihaliev, Logman
Combinatorics
Metric Geometry
11R04, 14G99, 11D99
The relevance of this paper lies in the fact that it resolves two previously unsolved open problems. In the first part of the paper, a new lemma is proved, from which it follows that if there exists a triangle with integer sides and medians, then there necessarily exists another triangle, not similar to it, with the same properties. In other words, such triangles can exist only in pairs. In the second part of the paper, by transforming known formulas, a new theorem is established in the form of a universal identity valid for all triangles. The focus of this theorem is the proof of the nonexistence of Heronian triangles with three integer medians. We arrive at the conclusion that, among the seven elements of a triangle (three sides, three medians, and the area), only six can be integers. It should be noted that if the above universal identity is considered as a Diophantine equation, then such a Diophantine equation does have solutions. As examples, one may consider the following pair of triangles. A triangle with sides 146,102,52, area 1680, and two integer medians 35 and 97. Also, according to the conditions of the above lemma, there exists another triangle with medians 219,153,78, area 5040, and two integer sides 70 and 194. This version of the article is different from the previous ones because everything has been simplified to the level of a straight-A high school student.
title There is no Heron triangle with three rational medians
topic Combinatorics
Metric Geometry
11R04, 14G99, 11D99
url https://arxiv.org/abs/2111.05118