3D Pascal's beta cube
- To: mathgroup at smc.vnet.net
- Subject: [mg49610] 3D Pascal's beta cube
- From: "Roger L. Bagula" <rlbtftn at netscape.net>
- Date: Sat, 24 Jul 2004 03:48:19 -0400 (EDT)
- References: <200407211814.i6LIELN23030@proapp.mathforum.org> <cdnq13$l3v$1@smc.vnet.net>
- Reply-to: tftn at earthlink.net
- Sender: owner-wri-mathgroup at wolfram.com
(* 64*64*64 CUBE OF xy,yz,zx beta triangle 3D *)
(* BY R. L. BAGULA 23 July 2004©*)
a=32;
b1=Beta[Abs[a-Abs[a-x]],Abs[a-Abs[a-y]]]
b2=Beta[Abs[a-Abs[a-y]],Abs[a-Abs[a-z]]]
b3=Beta[Abs[a-Abs[a-x]],Abs[a-Abs[a-z]]]
g=Flatten[Table[If[Mod[1/(b1*b2*b3),2]==1,
Cuboid[0.5*{x,y,z}],{}],
{x,0,2*a},{y,0,2*a},{z,0,2*a}]];
gg=Show[Graphics3D[g,Boxed->False,ViewPoint->{-3.059, 8.168, 2.221}]]
Notebook available by request.
Roger L. Bagula wrote:
> There is and old Visualization in Mathematica that
> gives a modulo 2 version of a Pascal's triangle.
> It is a right angle version of a tetrahedral 3d Sierpiski triangle.
> Here it is: ( copyright Mathematica):
>
> g=Flatten[Table[If
> Mod[Multinomial[x,y,x],2]==1,Cuboid[1.2*{x,y,-z}}],{}],{x,0,15},{y.0,15},{z,0,15}]
> Show[Graphics3D[g]]
>
> phil wrote:
>
>>Is there a three dimensional version of Pascal's
>>triangle? If so, I suppose it would be a cone (?).
>>Applications?
>>
>>phil
>>
>
>
>
--
Respectfully, Roger L. Bagula
tftn at earthlink.net, 11759Waterhill Road, Lakeside,Ca 92040-2905,tel:
619-5610814 :
URL : http://home.earthlink.net/~tftn
URL : http://victorian.fortunecity.com/carmelita/435/
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