The World’s First Tangram Cube
Conceived by Peter Rasmussen & Wei Zhang
Coordinated by Stan Isaacs
Designed by Bill Darrah, December 2003
Wood version produced by Josef Pelikan, March 2004
Plastic version produced by George Miller, February 2009
Tangram is a Chinese puzzle dating from the late 18th or early 19th century. It consists of seven flat pieces: two large triangles, two small triangles, a medium-size triangle, a square, and a parallelogram. These seven pieces can be arranged to form many shapes, including a square.
Stan, Bill, George, Peter and Wei admiring one of Bill's prototypes
Our goal was to create a three-dimensional tangram. One idea was to create a set of three-dimensional pieces that could be used to build solid figures in much the same way that the seven flat tangram pieces are used to construct plane figures. However, we eventually settled on creating a set of three-dimensional puzzle pieces that could be put together to form what we called a “tangram cube”—a solid cube having six tangram faces. A bit of exploration determined that there are exactly two ways in which six identical tangram squares can be arranged to form the surface of a cube so that undivided edges join undivided edges and divided edges join divided edges, respectively.
mmm
The two possible tangram cube nets
These two arrangements result in two different cubes, Cube A with what looks like a pair of large tetrahedra at opposite vertices separated by two parallel bands of tangrams and Cube B with what looks like a pair of small tetrahedra at opposite vertices separated by three parallel bands of tangrams.
mmmmmmmmmmmmm
Cube A mmmmmmmmmmmmmmm Cube B
The tetrahedra and parallel bands of each cube are easiest to see if one pokes a skewer through the apexes of the two tetrahedra and then spins the cube on the skewer.
mmmmmmmmm
Cube A's two large mmmmmmmm Cube B's two small
tetrahedra and two bandsmmmmm tetrahedra and three bands
Basically, we had designed two versions of the outside of our new puzzle, but we realized that there were an infinite number of ways in which our tangram cubes could be dissected. So the problem became one of finding the dissection that would be the most interesting, challenging and pleasing as a puzzle. We rejected the idea of a cube-packing assembly because of the need to produce an additional component—an open cube in which to pack the pieces—and the difficulty of rearranging pieces within such a cube. A free-standing assembly (like the Soma Cube) would have been satisfactory, but we agreed that an interlocking assembly that could be handled without falling apart would be best. Here are the criteria we settled on:
1. Each face of the cube shows tangram divisions.
2. The cube has a “small” number of pieces.
3. Adjacent pieces are different colors.
4. The pieces interlock.
5. The cube’s edges are not split.
6. The cube has no void spaces.
7. There is a unique solution.
Now it was time to build a model, and we chose to work with Cube A, the one with the pair of large tetrahedra. Our designer Bill Darrah first used Zome and Polydron construction sets to create large models of the pieces. Next he unfolded the Polydron pieces and traced their nets onto paper. We then made paper constructions of the pieces and revised them until we found the set we were looking for — six pairs of pieces, none of which are identical. Finally, Hungarian woodworker Josef Pelikan produced a beautiful wood version of the puzzle out of six varieties of hardwood, and we named it “Tanacube."
Wood Tanacube made by Josef Pelikan, 2004
In February 2009, puzzle maker George Miller used his three-dimensional printer to create a plastic version of Tanacube. Now you can order your own Tanacube from Puzzle Palace at www.puzzlepalace.com.
The new multi-colored plastic Tanacube
made by George Miller, Puzzle Palace, 2009
Tanacube has a unique solution in which adjacent pieces always have different colors. However the cube can also be assembled in such a way that some of the adjacent pieces have matching colors. See if you can find both solutions!
--Peter Rasmussen & Wei Zhang
Classical Chinese Puzzle Project
P.O. Box 10191
Berkeley, California 94709
www.ChinesePuzzles.net