How much of a cueball is useable normally?
- Thread starter Cron
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almost 14’ on a Snooker table.
However, I don’t try a stop shot without some type of side over 6’ or so if the object ball is near the pocket. I ‘might’ get a longer one but not worth the risk of scratching and giving up a ball in hand. Same with a draw from that distance...not worth the risk.
Look for little imperfections, nicks or scratches. Stack them on those.
Be careful, wouldn’t bet against the engineers. I am already visualize ing a tip like a floor scraper with progressive pitch with the leather at a v on the leading edge. So as the wedge lifts the 1/2 ball the spin is applied. Ahem, it is a very little known advanced shot.:wink:
He could be playing a OB sitting within an inch of the shelf of a corner pocket with the CB within an inch of the opposite corner pocket.
Math: 9 foot table length 4.5 feet wide::
D = SQRT( 9**2 + 4.5**2 )
= 10.06 feet.
So, mathematically, it is just barely doable on a 9 foot table.
9.316 feet
Kids in the Philippines play this skittle pool thing; must be good training.
I gotta say 99% (means everything except the actual mathematical part on the surface) is unused.
I'll have to look that up....sounds interesting.
Can believe nobody admits to only using the outside of the cue ball.
A 9 foot table is only 100 inches (8’4”) nose to nose and no more than 109 inches (9’1”) from diagonal corner pocket drop off points.
That’s right for a 50” x 100” playing area - but balls sitting at those corners would drop into the pockets. Making the playing area 48 x 96 gives a maximum shot length of 9.09’ (9’ 1-1/8”).
pj <- but who’s counting?
chgo
Well there ya go! Thanks, Bob. Looks like a fun game.
I'd prefer using a little cue stick rather than flipping with my finger. I've never seen this. I know hockey pucks don't slide too easily on a pool table.
Here's the Filipino version. Looks like he's using the big disc. :grin:
https://www.youtube.com/watch?v=pJtvlolCbh4
This is exactly what I was trying to explain to a few people about aiming when I used hockey pucks to prove my point, that it's all done with the equator/circumference of the balls, meaning there are no special spherical aiming mysteries or secrets. Being a sphere simply allows a ball to roll, instead of slide like a disk. With fractional aiming it's all done using the diameter of the ball (or the diameter of those discs), rather than the actual circumference.
Thanks for posting the link.:thumbup:
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Are those clock positions AM or PM???? :grin::grin:
Sorry, I guess this social isolation stuff is starting to wear on me.
In case the OP's actually interested in the real answer to the question, Bob gave it here - and the pic below illustrates it: you can't hit outside the largest white circle (1/2 way from center to edge of the CB) without miscuing.
Another way of saying the same thing is "only 1/4 of the CB is 'usable'" - because only 1/4 of the total "2D" area as you look at the CB is inside that circle (3/4 of the total area is outside it).
pj
chgo
Thanks, I forgot it's a sphere on paper (it was VERY 2d).
I have this equation to help find the lowest contact point regardless of miscue, but if someone has a 10mm tip and states it's shaped as a dime, is the tip actually the complementary shape of a dime? It could be, be that seems wrong for some reason when it's modelled (it seems very flat).
What does that image look like with say a 12mm tip & max LH English.
Seems I'm further out that your outer circle but I can't lay my tip on there to see what it would look like.