On Sat, 4 Mar 2006 10:57:52 +0200, "Heikki Leivo"
wrote:
"TOP" wrote in message
oups.com...
If you look at the link it seems to be what they did on some golf
balls. You cannot project a sketch, but you can get points from a
sketch to project onto a surface. Very tedious, but doable.
The easiest way to do the dimples is to use the hole wizard. Hole wizard is
basically a revolve, and you can edit the hole profile to represent a
dimple. You can model a 1/6 piece of one icosahedron triangle, cut it to
sphere shape, use hole wizard to create four dimples and finally use body
mirrors and patterns to create the ball shape.
While a regular (platonic) icosahedron has 20 faces it has only 12 vertices.
[
Most balls on sale today have about 300 to 450 dimples. There were a few balls
having over 500 dimples before. The record holder was a ball with 1,070 dimples
-- 414 larger ones (in four different sizes) and 656 pinhead-sized ones. All
brands of balls, except one, have even-numbered dimples. The only odd-numbered
ball on market is a ball with 333 dimples.
] from TOP's link :
http://www.answers.com/topic/golf-ball g.
G. De Angelis chose 330.
12=2*3*2^2
20=5*2^2
330=2*3*5*11
300=(2^2)*3*(5^2)
333=3*111
414= 2*207
450= 2*(3^2)*(5^2)
656 =(2^4)*41
1,070= 2*5*107
You may be able to design a golf ball based on icosahedrons
IF it has 300 dimples.
Not in the other cases I suspect though you might try using both
faces & vertexes .... 32 = 2^5 .... Nope.
Or am I wrong G?
--
Cliff