aperiodic monotile einstein hat

aperiodic monotile einstein hat

thingiverse

For many years, mathematicians have been intrigued by the concept of aperiodic tiling - the idea that shapes can be arranged in such a way as to create infinite patterns that never repeat. However, until recently, it remained unclear whether this could be achieved with just one shape. Now, after years of research, mathematicians have finally discovered a single shape that can be used to completely cover a surface without ever repeating. This breakthrough is surprising in its simplicity, yet its potential applications range from material science to decorative arts. A recent discovery by researchers has shed light on an intriguing geometric shape called "the hat" that was previously only a theoretical concept. The hat is a polygonal shape consisting of 13 sides, which is capable of tiling a surface without repeating itself. This is remarkable because the hat is an aperiodic monotile, meaning that it can tile a surface without displaying any translational symmetry, and its pattern never repeats. The well-known Penrose tilings provide an example of aperiodic tiling, where two different shapes are used to create an aperiodic pattern. In contrast, the hat tiling only employs a single shape known as the "einstein," which translates to "one stone" in German. Thus, the hat pattern is an aperiodic monotile. The hat shape is a polykite structure, consisting of eight kites connected at their edges. Until recently, the existence of an aperiodic monotile was purely theoretical. However, a research team led by mathematician David Smith and his colleagues have proved its existence in a preprint paper (PDF included) posted online this month. The discovery of the hat shape and its unique properties may have practical applications in various fields, including architecture, design, and engineering.

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