Crind (EntityTopic, 10)
From Hi.gher. Space
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*The [[planar]] [[cross-section]]s (''n'') of a crind are: | *The [[planar]] [[cross-section]]s (''n'') of a crind are: | ||
<blockquote>''Unknown''</blockquote> | <blockquote>''Unknown''</blockquote> | ||
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{{Polyhedra}} | {{Polyhedra}} | ||
+ | {{Bracketope Nav|10|11|12|<(xy)z><br>Bicone|([xy]z)<br>Crind|(<xy>z)<br>Narrow crind}} |
Revision as of 16:53, 19 June 2007
Geometry
A crind is the intersection of two perpendicular cylinders. Due to momentum it will behave similarly to a duocylinder if left to roll on a surface. However, unlike a duocylinder, a crind can be stopped and then rolled in a different direction without needing to rotate it.
The crind is also one of the few curved polyhedra that satisfies Euler's F + V = E + 2.
Equations
- Assumption: Crind is centered at the origin.
- Variables:
r ⇒ radius of crind
- All points (x, y, z) that lie on the surface of a crind will satisfy the following equations:
x + y ≤ x + z = r
-- or --
x + z ≤ x + y = r
- All points (x, y, z) that lie on the edges of a crind will satisfy the following equation:
x + y = x + z = r
- The hypervolumes of a crind are given by:
total edge length = 4πsqrt(2)r
surface area = Unknown
volume = πr3
- The planar cross-sections (n) of a crind are:
Unknown
Notable Trishapes | |
Regular: | tetrahedron • cube • octahedron • dodecahedron • icosahedron |
Direct truncates: | tetrahedral truncate • cubic truncate • octahedral truncate • dodecahedral truncate • icosahedral truncate |
Mesotruncates: | stauromesohedron • stauroperihedron • stauropantohedron • rhodomesohedron • rhodoperihedron • rhodopantohedron |
Snubs: | snub staurohedron • snub rhodohedron |
Curved: | sphere • torus • cylinder • cone • frustum • crind |
10. <(xy)z> Bicone | 11. ([xy]z) Crind | 12. ( Narrow crind |
List of bracketopes |