![[D hexomino]](Images/d6.gif)
4 × 6 (smallest rectangle)
5 × 12
complete
smallest rectangle: 4 × 6
![[4 x 6 rectangle]](Images/d6_4x6.gif)
Proposition. Any rectangle tiled by the D hexomino has one side
divisible by 6 .
Proof. Consider the numbering
(x, y) |---> { 1 if x + [y/3] is odd
{ -1 if x + [y/3] is even,
where [ ] is the greatest integer function.
However it is placed, a D hexomino covers a total of 0. It is easy to check that a (6m + 2) × (6n + 3) rectangle can be placed so that it covers a non-zero total, and the same for a (6m + 4) × (6n + 3) rectangle. Thus these cannot be tiled by the D hexomino. The only remaining possibilities with area divisible by 6 have one side divisible by 6. QED.
Theorem. Any rectangle tiled by the D hexomino has one side
divisible by 4 .
This is a more difficult result. It is stated in [1, Theorem 7.1] and proved in [2, Theorem 5.12].
References
[1] Michael Reid,
Tile Homotopy Groups,
L'Enseignement Mathématique 49 (2003),
no. 1-2, pp. 123-155.
[2] Michael Reid,
Klarner Systems and Tiling
Boxes with Polyominoes,
Journal of Combinatorial Theory, Series A 111 (2005),
no. 1, pp. 89-105.
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Updated August 25, 2011.