A Tessellation Featuring Regular Enneagons, Regular Hexagons, Equilateral Triangles, and Kites

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An Untidy Faceting of the Icosidodecahedron

Posted on 25 September 2024 by RobertLovesPi

I made this using Stella 4d, which you can try for free at http://www.software3d.com/Stella.php. Untidy facetings are like normal ones, except they do not use all the vertices of the “seed” polyhedron.

A New Book, by the Amazing Yoko Ogawa

Posted on 15 August 2024 by RobertLovesPi

From the back cover:

“Yoko Ogawa is a quiet wizard, casting her words like a spell, conjuring a world of curiosity and enchantment, secrets and loss. I read Mina’s Matchbox like a besotted child, enraptured, never wanting it to end.”

~~Ruth Ozeki, author of The Book of Form and Emptiness

Two Views of a Faceted Great Rhombicosidodecahedron

Posted on 9 August 2024 by RobertLovesPi

This was the initial image that Stella 4d (free trial here) gave me when I first created this faceting. Every face type — and there are many — has a different color in this image.

It’s a little easier on the eyes to see this faceting if the face types are grouped into just three colors, as seen below.

The Medial Rhombic Triacontahedron, Rendered in Zome

Posted on 13 July 2024 by RobertLovesPi

This is the medial rhombic triacontahedron, constructed using Zometools. It is the dual of the uniform polyhedron known as the dodecadodecahedron.

If you’d like to have Zome for your home or classroom, the website to visit to get it is http://www.zometool.com. I give it an enthusiastic “two thumbs up.”

Three Different Views of the 600-Cell

Posted on 1 July 2024 by RobertLovesPi

The 600-cell is a four-dimensional, convex, regular polychoron. Its dual is the 120-cell, also known as the hyperdodecahedron. Since the dual of the dodecahedron is the icosahedron, the 600-cell is sometimes called the “hypericosahedron,” That might lead one to think that the cells of a 600-cell are icosahedra, but they are actually tetrahedra. These tetrahedra meet twenty at a vertex, which is another way the icosahedron is involved in this figure.

I just finished a Zome model of a three-dimensional “shadow” of a 600-cell. It’s a challenging model to make. Built with B1, Y1, R1, and R0 Zomestruts, it’s about the size of a basketball. Instructions for building it may be found at https://www.pmedig.com/Zome_600cell.html.

If you’d like to try Zometools for yourself, or want some for your kids, the website to visit is http://www.zometool.com. I’ve been a happy customer of theirs for over twenty years.

Here are two more models of the 600-cell. Rather than being physically built, these are virtual models. They show the polychoron rotating in hyperspace, thus changing the appearance of its three-dimensional “shadow” on a continual basis. This rotation in hyperspace differs in the two images shown, along with the coloring of the models.

These virtual models were created using Stella 4d, which you can try for free at http://www.software3d.com/Stella.php.

An Overinflated Cube, Made of Pentagons, Squares, and Isosceles Triangles

Posted on 23 June 2024 by RobertLovesPi

I made this while playing around with Stella 4d, a program you can try for free at http://www.software3d.com/Stella.php.

Can You Find All Four Polyhedra in This Ball of Zome?

Posted on 19 June 2024 by RobertLovesPi

The four polyhedra in the Zome structure above are well-known. Two are Platonic solids, one is an Archimedean solid, and one is a Catalan solid. When you think you’ve found all four, you can scroll down to check your answers.

The four polyhedra are the icosahedron (blue), the dodecahedron (blue), the icosidodecahedron (blue), and the rhombic triacontahedron (red). Also, if you’d like to try Zome for yourself, or your children, the website to visit is http://www.zometool.com.