A spherical cross-section inside the Menger sponge -iteration 5- with a (4xO+1)/(1xO-1) conformal transformation in the Octonionic space -tridimensional cross-section- [*Une coupe sphérique dans l'éponge de Menger -itération 5- avec une transformation conforme (4xO+1)/(1xO-1) dans l'ensemble des Octonions -section tridimensionnelle-*].

See the original object:

log(20) --------- = 2.726833027860842... log(3)The "standard" Menger sponge can be defined by means of

"standard" Menger sponge _____________________ / \ TTT TFT TTT TFT FFF TFT TTT TFT TTT \_/ Sierpinski carpetor again:

TTT TFT TTT TFT FFF TFT TTT TFT TTTwhere 'T' ('True') and 'F' ('False') means respectively "subdivide" and "do not subdivide". The rules are repeated at each level, but they can be changed periodically and for example:

TTT TFT TTT TFT FFF TFT TTT TFT TTT FFF FTF FFF FTF TTT FTF FFF FTF FFF \___________________________________/ \___________________________________/ "standard" Menger sponge complementalternates the "standard" Menger sponge and its complement. Obviously many other rules do exist as shown below...

Beside 'F' and 'T' some other possibilities exist: 'R' that means "subdivide" or "do not subdivide" Randomly with a given threshold between 0 and 1 (0.5 being the default value) and 'S' that means "Stop subdividing". Obviously 'F', 'T', 'R' and 'S' can be mixed at will...

Moreover an amazing

2X - 2Y + 2Z - 1 = 0the origin of the coordinates being at the center of the main cube and the axis being parallel to its sides.

This process can be generalized in many different ways and for example:

3 3 3 2X - 2Y + 2Z - 1 = 0(the curved one) or again:

1 2 1 2 1 2 2 (X - ---) + (Y - ---) + (Z - ---) = R 2 2 2(the spherical one).

See some related pictures (possibly including this one):

==>

==>

>>>

==>

==>

==>

==>

==>

==>

See some related pictures (possibly including this one):

==>

==>

See some related pictures (possibly including this one):

See some related pictures (possibly including this one):

==>

==>

==>

>>>

==>

==>

==>

==>

==>

==>

==>

==>

==>

==>

==>

==>

See some related pictures (possibly including this one):

(CMAP28 WWW site: this page was created on 10/31/2017 and last updated on 05/23/2020 21:10:58 -CEST-)

[See all related pictures (including this one) [

[Please visit the related ArtAndScience picture gallery [

[Please visit the related ImagesDesMathematiques picture gallery [

[Go back to AVirtualMachineForExploringSpaceTimeAndBeyond [

[

[

[Mail [

[About Pictures and Animations [

Copyright (c) CMAP (Centre de Mathématiques APpliquées) UMR CNRS 7641 / Ecole Polytechnique, 2017-2020.