Hexagonal tortoise problem: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 08:26, 14 August 2018 edit Bamnamu (talk \| contribs) Extended confirmed users 4,165 edits ce ← Previous edit		Latest revision as of 22:36, 18 January 2024 edit undo JJMC89 bot III (talk \| contribs) Bots, Administrators 4,344,995 edits m Moving Category:Magic shapes to Category:Magic figures per Wikipedia:Categories for discussion/Speedy
(11 intermediate revisions by 9 users not shown)
Line 1: {{Short description\|Mathematical problem}} The '''hexagonal tortoise problem''' ({{Korean\|지수귀문도\|地數龜文圖}}), a.k.a. '''jisuguimundo''', '''jisugwimundo''') was invented by Korean aristocrat and mathematician [[Choi Seok-jeong]], who lived from 1646 to 1715. It is a mathematical problem that involves a hexagonal lattice, like the hexagonal pattern on some tortoises' shells, to the (''N'') [[Vertex (geometry)\|vertices]] of which must be assigned integers (from 1 to ''N'') in such a way that the sum of all integers at the vertices of each hexagon is the same.{{sfn\|Choe\|Choi\|Moon\|2003\|p=850}} The problem has apparent similarities to a [[magic square]] although it is a vertex-magic format rather than an edge-magic form or the more typical rows-of-cells form.{{sfn\|Choe\|Choi\|Moon\|2003\|p=850}}▼ ~~His book,~~[[File:hexagonal_tortoise_problem.svg\|thumb\|upright=1.4\|Choi Seok-jeong'~~'Gusuryak'', contains many interesting mathematical discoveries. Below is his~~s original magic hexagonal tortoise pattern. All the sums of six numbers of each hexagon are the same number, 93. The magic sum varies if the numbers 1 through 30 are rearranged. For example, the magic sum could be 77 through 109.]]▼ ▲The '''hexagonal tortoise problem''' ({{Korean\|지수귀문도\|地數龜文圖\|jisugwimundo}}~~), a.k.a. '''jisuguimundo''', '''jisugwimundo'''~~) was invented by Korean aristocrat and mathematician [[Choi Seok-jeong]], ~~who lived from 1646 to 1715~~(1646–1715). It is a mathematical problem that involves a hexagonal lattice, like the hexagonal pattern on some tortoises' shells, to the (''N'') [[Vertex (geometry)\|vertices]] of which must be assigned integers (from 1 to ''N'') in such a way that the sum of all integers at the vertices of each hexagon is the same.{{sfn\|Choe\|Choi\|Moon\|2003\|p=850}} The problem has apparent similarities to a [[magic square]] although it is a vertex-magic format rather than an edge-magic form or the more typical rows-of-cells form.{{sfn\|Choe\|Choi\|Moon\|2003\|p=850}} His book, ''Gusuryak'', contains many mathematical discoveries. ▲His book, ''Gusuryak'', contains many interesting mathematical discoveries. Below is his original magic hexagonal tortoise pattern. All the sums of six numbers of each hexagon are the same number, 93. The magic sum varies if the numbers 1 through 30 are rearranged. For example, the magic sum could be 77 through 109. ~~[[File:Hexagonal-tortoise-problem.png]]~~ == References == Line 13 ⟶ 12: === Sources used === {{refbegin\|1}} * {{cite conference\| ~~ref=harv\|~~ conference=Proceedings of the Genetic and Evolutionary Computation (GECCO) Conference, Chicago, IL, USA, July 12–16, 2003\| editor1-first=Erick\|editor1-last=Cantù-Paz\| Line 28 ⟶ 26: {{refend}} [[Category:~~Recreational~~Magic ~~mathematics~~figures]]