Circle packing in an equilateral triangle

Circle packing in an equilateral triangle is a packing problem in discrete mathematics where the objective is to pack n unit circles into the smallest possible equilateral triangle. Optimal solutions are known for n < 13 and for any triangular number of circles, and conjectures are available for n < 28.^[1][2][3]

A conjecture of Paul Erdős and Norman Oler states that, if n is a triangular number, then the optimal packings of n − 1 and of n circles have the same side length: that is, according to the conjecture, an optimal packing for n − 1 circles can be found by removing any single circle from the optimal hexagonal packing of n circles.^[4] This conjecture is now known to be true for n ≤ 15.^[5]

Minimum solutions for the side length of the triangle:^[1]

Number of circles	Is triangular	Length	Area
1	True	${\displaystyle 2{\sqrt {3}}}$ = 3.464...	5.196...
2	False	${\displaystyle 2+2{\sqrt {3}}}$ = 5.464...	12.928...
3	True	${\displaystyle 2+2{\sqrt {3}}}$ = 5.464...	12.928...
4	False	${\displaystyle 4{\sqrt {3}}}$ = 6.928...	20.784...
5	False	${\displaystyle 4+2{\sqrt {3}}}$ = 7.464...	24.124...
6	True	${\displaystyle 4+2{\sqrt {3}}}$ = 7.464...	24.124...
7	False	${\displaystyle 2+4{\sqrt {3}}}$ = 8.928...	34.516...
8	False	${\displaystyle 2+2{\sqrt {3}}+{\dfrac {2}{3}}{\sqrt {33}}}$ = 9.293...	37.401...
9	False	${\displaystyle 6+2{\sqrt {3}}}$ = 9.464...	38.784...
10	True	${\displaystyle 6+2{\sqrt {3}}}$ = 9.464...	38.784...
11	False	${\displaystyle 4+2{\sqrt {3}}+{\dfrac {4}{3}}{\sqrt {6}}}$ = 10.730...	49.854...
12	False	${\displaystyle 4+4{\sqrt {3}}}$ = 10.928...	51.712...
13	False	${\displaystyle 4+{\dfrac {10}{3}}{\sqrt {3}}+{\dfrac {2}{3}}{\sqrt {6}}}$ = 11.406...	56.338...
14	False	${\displaystyle 8+2{\sqrt {3}}}$ = 11.464...	56.908...
15	True	${\displaystyle 8+2{\sqrt {3}}}$ = 11.464...	56.908...

A closely related problem is to cover the equilateral triangle with a fixed number of equal circles, having as small a radius as possible.^[6]

• Circle packing in an isosceles right triangle
• Malfatti circles, a construction giving the optimal solution for three circles in an equilateral triangle

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