forming 3 superposing hexagons.
Clicking one of 3 hexagon center(A,B,C)
rotates 6 pieces around it.
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This puzzle consists of 13 triangular pieces forming 3 superposing hexagons. Clicking one of 3 hexagon center(A,B,C) rotates 6 pieces around it. |
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| A | B | C | D | E | |
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| solutions | 1×3 | 1×3 | 2×1 | 2×3 | 1 |
The puzzle is conisidered as solved if colors on both sides of all 12 piece borders are same.
There are 1 or 2 visibly different solved states with or without their rotations to left or to right by 120°.
The color-scheme E has only one solved states, because all pieces are orient-sensitive
and the sum of twists of pieces is always a multiple of 3.
So, you have to know the correct orientation to solve.
| 1. Fix 7 pieces around an edge. | 
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This can be done fairly intuitively within 20~30 moves.
After that, there remains only (6!)×(3^5)=174,960 different states.
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Reduce the permutation of pieces to a sugroup of order 16 (direct product of D8 and C2), so that, on the picture at right: - "1" and "6" can be swapped. - "2-3" and "4-5" are always parted in left-right or right-left. At this stage, the orientation of pieces doesn't matter. After this, the number of states is reduced to 16×(3^5)=3,888. | |
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gap> g:= Group((1,6),(2,3),(2,4)(3,5)); Group([ (1,6), (2,3), (2,4)(3,5) ]) gap> Size(g); 16 |
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Fix the orientation of pieces preserving the permutation group, so that, on the picture at right: - "10" and "60" are always on the vertical center line. - "20-30" and "40-50" are symmetrically placed on both sides of vertical center line. After this, the number of states is reduced to 16×(3^2)=144. |
| Sequence | Cycle notation |
| B4,C1,B1,C5,A1,C5,A5,C1,A5,B1,A1, | (40,41,42)(50,52,51) |
| A4,C2,A2,C3,B4,A4,C3,A2,B2,C1,A4, | (20,30)(21,31)(22,32) |
| A1,B1,C2,A2,B3,A4,C4,B3,A2,B2,A1, | (40,51)(41,52)(42,50) |
| A1,C1,B3,A3,C1,B5,C5,A3,B3,C5, | (40,31,41,32,42,30)(50,22,52,21,51,20) |
| A1,B1,A5,B5,A5,C5,A1,C1, | (40,22,41,20,42,21)(50,31,52,30,51,32) |
| B1,A1,B5,A5,C5,A5,C1,A1, | (40,21,42,20,41,22)(50,32,51,30,52,31) |
| C1,B3,A3,C1,B1,C5,A3,B3,C5,A5, | (40,30,42,32,41,31)(50,20,51,21,52,22) |
| A5,C2,A3,C5,A3,C3,A3,C5,A3,C2,A1, | (40,32,50,21)(41,30,51,22)(42,31,52,20) |
| A5,C4,A3,C1,A3,C3,A3,C1,A3,C4,A1, | (40,21,50,32)(41,22,51,30)(42,20,52,31) |
| A5,C4,A3,C1,A3,C3,A3,C1,A3,C4,A4, | (10,60)(11,61)(12,62)(20,31)(21,32)(22,30) |
| A5,C2,A3,C5,A3,C3,A3,C5,A3,C2,A4, | (40,50)(41,51)(42,52)(10,60)(11,61)(12,62) |
| B4,C1,B1,C5,A1,C5,A5,C1,A5,B1,A4, | (40,32,41,30,42,31)(50,21,52,20,51,22)(10,60)(11,61)(12,62) |
| A1,B1,C2,A2,B3,A4,C4,B3,A2,B2,A4, | (40,32,51,22)(41,30,52,20)(42,31,50,21)(10,60)(11,61)(12,62) |
| A4,C2,A2,C3,B4,A4,C3,A2,B2,C1,A1, | (40,22,51,32)(41,20,52,30)(42,21,50,31)(10,60)(11,61)(12,62) |
| C1,B3,A3,C1,B1,C5,A3,B3,C5,A2, | (40,41,42)(50,52,51)(20,22,21)(30,31,32)(12,62)(10,60)(11,61) |
| A1,C1,B3,A3,C1,B2,C5,A3,B3,C5, | (40,42,41)(50,51,52)(20,21,22)(30,32,31)(12,62)(10,60)(11,61) |
| A1,B1,A5,B5,A5,C5,A1,C1,A3, | (40,50)(41,51)(42,52)(10,60)(11,61)(12,62)(20,30)(21,31)(22,32) |
| A3, | (40,32)(41,30)(42,31)(50,21)(51,22)(52,20)(10,60)(11,61)(12,62) |
| B1,A1,B5,A5,C5,A5,C1,A4, | (40,51)(41,52)(42,50)(10,60)(11,61)(12,62)(20,31)(21,32)(22,30) |
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gap> g:=Group( (40,51)(41,52)(42,50), (40,32,51,22)(41,30,52,20)(42,31,50,21)(10,60)(11,61)(12,62), (40,51)(41,52)(42,50)(10,60)(11,61)(12,62)(20,31)(21,32)(22,30) ); <permutation group with 3 generators> gap> Size(g); 144 gap> IdSmallGroup(g); [ 144, 186 ] |