User:Rémy Sigrist

Interested in mathematics and computing from a young age.

Wave curve

Wave curve

I came across this fractal while playing with Koch curve.

• To build a Koch curve: iteratively substitute to a segment AE a broken line ABCDE where A, B, D, E are aligned and equally spaced and BCD forms an equilateral triangle.
• To build this curve: apply the same rule except that DCE forms an equilateral triangle.

Bernt Wahl mentions this fractal as a Kochawave in his Fractal Explorer.

Antiflake

Arranging three copies pointing inwards around a triangle gives a fractal with empty area.

Antiflake construction

The previous fractal can be obtained by starting with an equilateral triangle and iteratively replacing each triangle by 3 copies scaled by a factor ${\displaystyle 1/3}$ and one copy scaled by a factor ${\displaystyle 1/sqrt(3)}$.
The first substitution is rendered here with color blue.
The area after ${\displaystyle n}$ steps is ${\displaystyle (2/3)^{n}}$ the area of the original triangle, hence the limiting figure has empty area.
The Hausdorff dimension ${\displaystyle d}$ is approximately ${\displaystyle 1.518...}$ (${\displaystyle 3/3^{d}+1/sqrt(3)^{d}=1}$).

Tiles

Triangle tile

This tile is obtained by arranging three copies of the wave curve around an equilateral triangle.
Its area is twice the area of the original triangle.
It is possible to tessellate the plane by copies in one size.

Rhomboid tile

This tile is obtained by arranging four copies of the wave curve around a rhomboid as depicted on the left.
It is possible to tessellate the plane by copies of sizes ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\geq 0}$.
It is possible to tessellate the plane by copies of sizes ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\in \mathbb {Z} }$.

Dart tile

This tile is obtained by arranging four copies of the wave curve around a dart as depicted on the left.
It is possible to tessellate the plane by copies of sizes ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\geq 0}$.
It is possible to tessellate the plane by copies of sizes ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\in \mathbb {Z} }$.

Biface antisymmetrical tile

This tile is obtained by arranging two copies of the wave curve head to tail.
This tile can be obtained by arranging ${\displaystyle 2^{(}k-1)}$ copies of the rhomboid tile scaled by a factor ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\geq 1}$.
It is possible to tessellate the plane by copies in one size.

Biface symmetrical tile

This tile is obtained by arranging two symmetrical copies of the wave curve.
This tile can be obtained by arranging ${\displaystyle 2^{(}k-1)}$ copies of the dart tile scaled by a factor ${\displaystyle 1/3^{k}}$ for ${\displaystyle k\geq 1}$.
It is possible to tessellate the plane by copies in one size.

Tessellations

Triangle tesselation

This tiling is periodic.

Rhomboid tesselation

This tiling has scale symmetry.

Dart tesselation

This tiling has scale symmetry.

Biface antisymmetrical tesselation

This tiling is periodic.

Biface symmetrical tesselation

This tiling is periodic.