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* fix: clean-up Project Euler 341-360 * fix: improve wording Co-authored-by: Sem Bauke <46919888+Sembauke@users.noreply.github.com> * fix: corrections from review Co-authored-by: Tom <20648924+moT01@users.noreply.github.com> Co-authored-by: Sem Bauke <46919888+Sembauke@users.noreply.github.com> Co-authored-by: Tom <20648924+moT01@users.noreply.github.com>
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id, title, challengeType, forumTopicId, dashedName
| id | title | challengeType | forumTopicId | dashedName |
|---|---|---|---|---|
| 5900f4cb1000cf542c50ffde | Problem 351: Hexagonal orchards | 5 | 302011 | problem-351-hexagonal-orchards |
--description--
A hexagonal orchard of order n is a triangular lattice made up of points within a regular hexagon with side n. The following is an example of a hexagonal orchard of order 5:
Highlighted in green are the points which are hidden from the center by a point closer to it. It can be seen that for a hexagonal orchard of order 5, 30 points are hidden from the center.
Let H(n) be the number of points hidden from the center in a hexagonal orchard of order n.
H(5) = 30. H(10) = 138. H(1\\,000) = 1\\,177\\,848.
Find H(100\\,000\\,000).
--hints--
hexagonalOrchards() should return 11762187201804552.
assert.strictEqual(hexagonalOrchards(), 11762187201804552);
--seed--
--seed-contents--
function hexagonalOrchards() {
return true;
}
hexagonalOrchards();
--solutions--
// solution required