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Conference rusure::math

Title:	Mathematics at DEC

Moderator:	RUSURE::EDP

Created:	Mon Feb 03 1986
Last Modified:	Fri Jun 06 1997
Last Successful Update:	Fri Jun 06 1997
Number of topics:	2083
Total number of notes:	14613

586.0. "Cube cut-up" by 26205::YARBROUGH () Wed Sep 24 1986 14:04

Here's a nice exercise in visualization.

A cube has 12 edges. You can group these in four identical sets of three,
looking something like /\_ , i.e. one along each coordinate axis with two
connections and two free ends. If you stretch saran-wrap or whatever around
each of these, you get four tetrahedra which can be put together to form
the general shape of the cube, except that some of the volume is not
included: the volume of each tetrahedron is 1/6 that of the cube. 

What simple extension can you make to each of the tetrahedra to form four 
identical shapes, each containing three full-length and mutually 
perpindicular edges connected as above, that will fill the cube completely?

T.R	Title	User	Personal Name	Date	Lines
586.1	One try follows	STAR::BRANDENBERG	Civilization is the progress toward a society of privacy.	`Wed Sep 24 1986 16:49`	6
	Since the four tetrahedra won't cover two of the faces, I would add an extension from each connection/vertex to the center of the face in which it lies. Monty
586.2	Eh?	26205::YARBROUGH		`Thu Sep 25 1986 08:43`	3
	That's not at all clear. Each vertex is part of three faces; each edge is part of two faces. I can't understand what you are trying to describe.
586.3		CLT::GILBERT	eager like a child	`Thu Sep 25 1986 09:39`	14
	Note that there are two distinct ways of assigning those 4 "/\_" shapes to edges: aaaaaaaaaac aaaaaaaaaad ab cc ab dd a b c c a b d d a b c c a b d d a bbbbbbbbbbb a bcccccccccc acccdcccccc b adddbdddddd c a d d b a b c c a d d b a b c c ad db ab cc ddddddddddd bbbbbbbbbbc
586.4	how I long for graphics	CACHE::MARSHALL	beware the fractal dragon	`Thu Sep 25 1986 09:53`	27
	.----------. / /\| a b .----------/ \| .----------. \| \| \| \| \| \| \| \| d \| \| / \| / \| \|/ \|/ `----------' ' c connect: a-c,b-d,a-d to form the tetrahedron. Notice that half of the front face of the cube is the triangle a-b-c, similarly half the right face is triangle b-c-d. But the top surface (and the bottom surface) are not contained at all (except at two points). as I understand .1, disconnect the line a-d. Now place point 'e' in the center of the top surface, and point 'f' in the center of the bottom surface. Now, draw lines a-e,e-f,f-d. also, b-e, c-f, a-f, d-e. this results in an octohedron. I think this shape does meet the requirements of the puzzle. / ( ___ ) /// /
586.5	Exactly	STAR::BRANDENBERG	Civilization is the progress toward a society of privacy.	`Thu Sep 25 1986 10:37`	1

586.6	Here's a mental image	26205::YARBROUGH		`Thu Sep 25 1986 12:59`	6
	Right! One way of visualizing this construction is to run an imaginary rubber band from the top center of the cube: to a corner, down the edge, to the bottom center, and back up an adjacent edge to the top center. This outlines one quarter of the cube. Now rotate the top by 90 degrees and you have the figure of .4. There are also several other solutions; I like this one.
586.7		CLT::GILBERT	eager like a child	`Fri Oct 03 1986 01:15`	1
	Does the same 'extension' work for the other edge assignment given in .3?
586.8	Two kinds of /\_'s	MODEL::YARBROUGH		`Fri Oct 03 1986 08:42`	14
	> Does the same 'extension' work for the other edge assignment given in .3? No. The 'other' (left) alternative in .3 does not conform to the problem definition in .0, since in that diagram not all the /\_'s are congruent; two are left-handed, two are right-handed. In case you need a definition: pick up a /\_ by the middle segment so the ends hang down with one end close to you. If the nearest bend is to the left it is left-handed. Viewed from above: Left Right / \ \ / / \