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Search: concept:rotation_required
Displaying 1-9 of 9 results found.     page 1
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BP175 Small object can glide in the bay vs. small object cannot glide in the bay.
(edit; present; nest [left/right]; search; history)
CROSSREFS

Adjacent-numbered pages:
BP170 BP171 BP172 BP173 BP174  *  BP176 BP177 BP178 BP179 BP180

KEYWORD

orderedpair, traditional

CONCEPT entrance_exit (info | search),
indentation (info | search),
rotation_required (info | search),
imagined_motion (info | search),
motion (info | search),
specific_shape (info | search),
physically_fitting (info | search)

AUTHOR

Harry E. Foundalis

BP201 Two of the shapes make tiles along their border lines vs. not so.
(edit; present; nest [left/right]; search; history)
CROSSREFS

Adjacent-numbered pages:
BP196 BP197 BP198 BP199 BP200  *  BP202 BP203 BP204 BP205 BP206

KEYWORD

noisy, traditional

CONCEPT rotation_required (info | search),
tiling (info | search),
imagined_motion (info | search),
motion (info | search)

WORLD

fill_shapes [smaller | same | bigger]

AUTHOR

Giuseppe Insana

BP228 After rotating so that the longest line is horizontal, there is a left arm raised and a weight down vs. after rotating so that the longest line is horizontal, there is a left arm down and a weight raised.
(edit; present; nest [left/right]; search; history)
CROSSREFS

Adjacent-numbered pages:
BP223 BP224 BP225 BP226 BP227  *  BP229 BP230 BP231 BP232 BP233

KEYWORD

convoluted, traditional

CONCEPT rotation_required (info | search),
specific_style (info | search),
specificity (info | search)

AUTHOR

Giuseppe Insana

BP229 When the objects are rotated and their dots are overlapped and eliminated, they form three-square-tall structures with columns of the same color vs. not so.
(edit; present; nest [left/right]; search; history)
COMMENTS

Explanation / justification of BP229 by its creator:


"Long (doubly sized) objects are purines (A & G).

Short objects are pyrimidines (C & T).

Black are those forming triple Hbond (G and C).

White are those forming double Hbond (A & T).


On the left we have matching codes, i.e., bases, doublets or triplets that, when rotated, can pair correctly (A with T, G with C), binding the two strands.


On the right we have objects that no matter how they are rotated they do not pair correctly (because of bumps, wrong color codes, etc)."

CROSSREFS

Adjacent-numbered pages:
BP224 BP225 BP226 BP227 BP228  *  BP230 BP231 BP232 BP233 BP234

KEYWORD

unorderedpair, traditional

CONCEPT rotation_required (info | search),
tiling (info | search),
specific_value (info | search),
specificity (info | search)

AUTHOR

Giuseppe Insana

BP259 Two identical overlapping objects of which the top is rotated slightly clockwise vs. not so.
(edit; present; nest [left/right]; search; history)
CROSSREFS

Adjacent-numbered pages:
BP254 BP255 BP256 BP257 BP258  *  BP260 BP261 BP262 BP263 BP264

KEYWORD

traditional

CONCEPT turn_orientation (info | search),
rotation_required (info | search),
objects_overlap (info | search),
overlap (info | search),
same_shape (info | search),
same (info | search)

AUTHOR

Andreas Gunnarsson

BP305 Shapes identical after rotation vs. shapes identical after rotation and mirroring.
(edit; present; nest [left/right]; search; history)
CROSSREFS

Adjacent-numbered pages:
BP300 BP301 BP302 BP303 BP304  *  BP306 BP307 BP308 BP309 BP310

KEYWORD

nice, unorderedpair, traditional

CONCEPT rotation_required (info | search),
same_shape (info | search),
same (info | search)

AUTHOR

"Lewis"

BP529 Fractal tiles itself with smaller non-rotated (nor reflected) copies of itself vs. fractal requires turning to tile itself.
(edit; present; nest [left/right]; search; history)
COMMENTS

No included examples involve reflection.

CROSSREFS

Adjacent-numbered pages:
BP524 BP525 BP526 BP527 BP528  *  BP530 BP531 BP532 BP533 BP534

KEYWORD

perfect, infinitedetail

CONCEPT fractal (info | search),
rotation_required (info | search),
self-reference (info | search),
tiling (info | search)

WORLD

fractal_self_tile [smaller | same | bigger]

AUTHOR

Aaron David Fairbanks

BP850 Shape can be maneuvered around the corner vs. not so.
(edit; present; nest [left/right]; search; history)
REFERENCE

https://en.wikipedia.org/wiki/Moving_sofa_problem

CROSSREFS

Adjacent-numbered pages:
BP845 BP846 BP847 BP848 BP849  *  BP851 BP852 BP853 BP854 BP855

KEYWORD

nice, precise, physics, creativeexamples, proofsrequired, left-narrow, right-narrow, dithering

CONCEPT rotation_required (info | search),
imagined_motion (info | search),
physically_fitting (info | search)

AUTHOR

Leo Crabbe

BP892 Black shapes can be arranged such that they fit inside rectangular outline vs. not so.
?
(edit; present; nest [left/right]; search; history)
COMMENTS

There is a slight ambiguity here regarding whether a shape could be placed within another shape's hole. This is a question of how one perceives the Problem: are we sliding shapes around on a table in 2D or are we allowed to 'lift' them in 3D space?

CROSSREFS

Adjacent-numbered pages:
BP887 BP888 BP889 BP890 BP891  *  BP893 BP894 BP895 BP896 BP897

KEYWORD

nice, precise, perfect, pixelperfect, help

CONCEPT rotation_required (info | search),
physically_fitting (info | search)

AUTHOR

Leo Crabbe

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