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(via lauren-p-m)
Posted on March 29, 2013 via /PETER RAHUL with 42 notes
Source: peterrahul
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Posted on February 27, 2013 via Plug with 173 notes
Source: plugbug
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Posted on December 6, 2012 via muirgil's dream with 97 notes
Source: meta-synthesis.com
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![intothecontinuum:
2-D projections of rotating cubes
Mathematica code:
Rot = Table[ Table[ RotationTransform[a, {1, 1, 0}, {0, 0, 0}][Tuples[{-1, 1}, 3][[v]]], {v, 1, 8, 1}],{a, 0, 2 Pi, 2 Pi/100}]Edge := {1, 2, 4, 3, 7, 8, 6, 5, 1, 3, 4, 8, 7, 5, 6, 2}CubeProjections[color_, pr_, b_, s_, h_, w_, m_, o_] :=Graphics[ Table[ Translate[ {AbsoluteThickness[h], If[color == 0, Black, White], Line[ Table[ Table[ Rot[[1 + Mod[w (y + m*x) + a, 100]]][[Edge[[k]]]][[c]], {c, 1, 2, 1}], {k, 1, 16, 1}]]}, {s*x, s*y}], {x, -b, b, 1}, {y, -b, b, 1}], PlotRange -> {{-pr, pr}, {-pr, pr}}, ImageSize -> 500, Background -> If[color == 0, White, Black] ]Manipulate[PM = {color, pr, b, s, h, w, m, a};CubeProjections[color, pr, b, s, h, w, m, a],{color, 0, 1, 1}, {{pr, 17}, 1, 52}, {{b, 5}, 1, 10, 1},{{s, 3}, 0, 5}, {{h, 1}, .01, 10},{{w, 1}, 0, 20, 1},{{m, 1}, 0, 20, 1},{a, 1, 100, 1}]P = {0, 26.7, 7, 3.5, 1.3, 5, 1, 0}Manipulate[CubeProjections[P[[1]],P[[2]],P[[3]],P[[4]],P[[5]],P[[6]],P[[7]],a],{a, 48, 0, -2}]](http://25.media.tumblr.com/tumblr_mdr76iM2Lg1qfjvexo1_500.gif)
2-D projections of rotating cubesMathematica code:
Rot =
Table[
Table[
RotationTransform[a, {1, 1, 0}, {0, 0, 0}][Tuples[{-1, 1}, 3][[v]]],
{v, 1, 8, 1}],
{a, 0, 2 Pi, 2 Pi/100}]
Edge := {1, 2, 4, 3, 7, 8, 6, 5, 1, 3, 4, 8, 7, 5, 6, 2}
CubeProjections[color_, pr_, b_, s_, h_, w_, m_, o_] :=
Graphics[
Table[
Translate[
{AbsoluteThickness[h], If[color == 0, Black, White],
Line[
Table[
Table[
Rot[[1 + Mod[w (y + m*x) + a, 100]]][[Edge[[k]]]][[c]],
{c, 1, 2, 1}],
{k, 1, 16, 1}]]},
{s*x, s*y}],
{x, -b, b, 1}, {y, -b, b, 1}],
PlotRange -> {{-pr, pr}, {-pr, pr}}, ImageSize -> 500,
Background -> If[color == 0, White, Black]
]
Manipulate[
PM = {color, pr, b, s, h, w, m, a};
CubeProjections[color, pr, b, s, h, w, m, a],
{color, 0, 1, 1}, {{pr, 17}, 1, 52}, {{b, 5}, 1, 10, 1},
{{s, 3}, 0, 5}, {{h, 1}, .01, 10},
{{w, 1}, 0, 20, 1},{{m, 1}, 0, 20, 1},
{a, 1, 100, 1}]
P = {0, 26.7, 7, 3.5, 1.3, 5, 1, 0}
Manipulate[
CubeProjections[P[[1]],P[[2]],P[[3]],P[[4]],P[[5]],P[[6]],P[[7]],a],
{a, 48, 0, -2}] -
another tiling of the hyperbolic plane by regular right-angled pentagons
(source)
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a tiling of the hyperbolic plane by regular right-angled pentagons
(source)
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The nervous system.
(via nellsays)
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a handy commutative diagram from Wikipedia
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(via realityraincheck)
Posted on September 20, 2012 via out of sight out of mind: with 714 notes
Source: invisible-insane
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(via thesummerofmark)
Posted on August 18, 2012 via Bwanaschleuder with 61 notes
Source: bwansen
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Posted on July 11, 2012 via Beloveful with 129 notes
Source: beloveful
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Posted on June 29, 2012 via Sink or Swim with 157 notes
Source: sinkorswim0
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