## Soma cube

**Soma Cube**
The Soma Cube was invented by Piet Hein, in the 1930's. It has seven pieces, which are all the ways 3 or 4 cubes can be joined face-to-face, so that the resulting shape is NOT rectangular.

1. Try to put the 7 pieces into the cube. (But don't try too long, look at
the suggestions below for some hints.

a. How many cubes are in each piece?b. How many different pieces could you make with 3 cubes? With
4 cubes? With 5 cubes? (Including the rectangular ones.)
c. Which pieces are symmetric? Which have mirror images?
3. Here's a sub-problem, that might help think about the Soma Cube
a. Look at a checkerboard with two missing corners that are
b. Can you tile the checkerboard with 31 dominos?c. Imagine the dominos are colored so that each domino has a
d. How many black squares are on the checkerboard? How many
white squares? How many on each domino? How many are they total in all the 31 dominoes?
e. Can you see why that makes this problem impossible?
4. Look at 3x3x3 Soma cube that you are trying to pack. How many
5. Look at the pieces: how many corners can each one fill? What's the
maximum number for each piece, and the minimum number?
6. Note that only ONE piece can fill less than it's maximum corners.

7. Note that the T piece will either fill no corners, or 2 corners. Can it
fill no corners in the solution? Where must it go?
8. Now imagine the big cube is colored like a 3-dimensional
checkerboard. Are all the corners the same color? Edges? Face-centers? Center of the whole cube?
9. Look at each piece. If you checkerboard the pieces with two colors,
which pieces have an equal number of colored sub-cubes, which have different numbers?
10. If the T piece has to go on an edge, where can the Y piece go?
(The Y piece is the one that looks like a corner, and is one of the ones that require three dimensions.)
11. The v piece also has limited places it can go, but it is easier to just
put the rest of the pieces in (after the T and Y), and save the v for last.

12. Can you make a table to show where each piece could go in the cube?
13. Can you guess how many solutions there are in total for the Soma
cube? Can you figure an upper-bound for the number of solutions.

14. There are MANY ways to dissect a cube into pieces like the Soma
cube, giving very many possible puzzles. Some are more difficult then Soma, and some are easier. Some have a single solution, while others (like the Soma) that have many solutions. The Soma Cube actually has 240 different solutions! And, of course, you could make pieces for a 4x4x4 cube or even larger, though when you get too many pieces, it is not as interesting as a puzzle, though more interesting if you use a computer to solve it. You can also use the Soma pieces to make other shapes besides a cube.

- There are LOTS of other cube dissections, and the cubes can be bigger than 3x3x3. Here are three to apply vertex counting and/or parity: -- Coffins Quartet (should be easy, if you count corners.) -- Reid's Cube -- Vesala #4
- You can color the cubes or apply other patterns, to limit the solutions. For instance, you could put numbers on each face, like a die, or checkerboard each piece and require the solution to be checkerboarded.

-- There is a Dice Soma Cube on the table, which must be solved so each face has all of the same number, with opposite faces adding up to 7 -- The orange and brown checkerboard cube still has many solutions. In fact, all the solutions can still be made, EXCEPT for one piece that is not symmetric, so colored one way has some of the solutions, and colored the other way has the rest.

- You can tilt the pieces and the whole cube, so the pieces fit in fewer ways. The Rhombus Cube on the table is an example of this. The same arguments about corners and parity apply, but many of the possibilities are eliminated. This may, in fact, have only one solution. Can you either find more solutions, or prove there is only one?
- The Soma Cube uses only non-rectangular pieces. But you can replace either the tri-cube with a straight cube, or one of the tetra-cubes with a square tetra-cube, or both the tri-cube and one of the tetra-cubes at the same time. Most of those variations can still be solved, but not all. Which ones? You can use the "Soma Cube With Replacements" to try some of these variations.

Source: http://www.msri.org/attachments/jrmf/activities/SomaCube.pdf

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