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R392 update
Snookersfun and D_G both solved this one ...
Well done!
It stays open and ... it's easy!!!
Snookersfun and D_G both solved this one ...
Well done!It stays open and ... it's easy!!!
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Here's a puzzle for you all....
3 snooker players go into a hotel.
The receptionist said the room was £30, so each man paid £10 and went to the room.
A while later, the receptionist realised the room was only £25,
so she sent the porter to the 3 guys' room with £5.
On the way, the porter couldn't figure out how to split £5 evenly between 3 men, so he gave each man £1 and kept the other £2 for himself.
This meant that the 3 men each paid £9 for the room, which is a total of £27.
Add to that the £2 the porter kept and the total is £29.
Where is the other pound?Comment
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Hello Jacko, welcome to the thread
Your PM is disabled, how should we answer your puzzle?Comment
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I vaguely recall that PMs are limited untill you post a minimal number of contributions. Maybe I'm wrong but ... maybe a mod could confirm?
BTW ... I'm not sulking your question Jacko, it's nice to have new people on the thread, but I know this puzzle, so it would be unfair to participate.
Welcome!
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Oh, I think it's true - 10 posts needed, I guess, just one more, Jacko!Originally Posted by Monique View Post
Welcome on the thread and nice homepage!Comment
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...and here it is! lol
Actually, I'm struggling to work out the answer myself! If you can be dyslexic with numbers then I have it!Comment
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R. 389 and 393 updates
R. 389: Mon has the greens right as well now (actually since yesterday, sorry for being so late), hurray!
and with that congratulations to d_g, moglet and Monique on solving this round. We still need one solver at least to put his/her diagram/solution up
R. 393: d_g and Mon solved this one easily
. Will give a bit more time, as e.g. I know moglet is stuck in the fascinating problem of random walks or rather shots
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This was my original diagram - click it to enlarge. Just pick any pocket and mark it DESTINATION - then for each node moving farther out, add the numbers of the closer nodes to DESTINATION that can be reached from that node. Essentially in the manner that you described, except that only one DESTINATION pocket is needed as this gives the answer at once (using symmetry) for the numbers of paths that reach any pocket from any other (i.e. 5, 41 or 121 if travelling 1, 2 or 3 pockets in either direction).Originally Posted by snookersfun View PostR. 389: Mon has the greens right as well now (actually since yesterday, sorry for being so late), hurray!
and with that congratulations to d_g, moglet and Monique on solving this round. We still need one solver at least to put his/her diagram/solution upLast edited by davis_greatest; 5 March 2009, 02:23 AM."If anybody can knock these three balls in, this man can."
David Taylor, 11 January 1982, as Steve Davis prepared to pot the blue, in making the first 147 break on television.Comment
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R392
Solved by Abextra as well now! Congratulations!
Still open and more imaginative setups for Barry's are welcome.Comment
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R391
The six apes have spent the last day or two with a stopwatch actually testing the times to first reach one particular pocket after the instant Oliver struck the ball, of course they are very dedicated and did not mind doing it many, many, times to see how long it took to reach each particular pocket for the first time, on average.Originally Posted by davis_greatest View PostRound 391 update - only correct answer so far, via PM, is from snookersfun (maybe with a teeny bit of help) ... a reminder that answers can go on the thread. A hint - apart from part (f), the answers are not multiples of 5 seconds.
This is what they found, yellow and pink each took 33 seconds, green and blue 24 seconds, brown 27 seconds and Oliver got the ball back after 30 seconds.
They didn't seem in the least surprised that sometimes, but not very often, it could take 40 or more shots to get to a destination pocket, which ever one it might have been!Comment
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Congratulations, then, to moglet, snookersfun and Monique who have all found the answer - albeit through different means - to round 391!Originally Posted by moglet View Post Indeed, the answers are (a) 33 (b) 24 (c) 27 (d) 24 (e) 33 and (f) 30 seconds.
Labelling the pockets as described in post 3431 and following the approach I outlined gives the equations:
A = 5 + ⅓A + ⅓B + ⅓C
B = 5 + ⅓A + ⅓B
C = 5 + ⅔A
which we rearrange as
2A = 15+B+C
2B = 15+A
3C = 15+2A
which we can solve (3 equations in 3 unknowns) as:
A=33, B=24, C=27
Using an identical method we can find the average time between Oliver's shots. When he plays a shot, it takes 5 seconds and there is a ⅔ chance that it goes to a B pocket (green or blue) and a ⅓ chance that it goes to the C pocket (brown, opposite).
So the average time between Oliver's shots is 5 + ⅔B+ ⅓C = 5+16+9 = 30 seconds.
Yes, we can calculate how likely it is to require 40 shots or more, if we so wish. It will take 40 shots or more from Oliver striking the ball to reach:Originally Posted by moglet View Post
(a) the yellow pocket, with probability 0.0710% (same for pink)
(b) the green pocket, with probability 0.0479% (same for blue)
(c) the brown pocket, with probability 0.0572%
(d) Oliver again, with probability 0.0617%"If anybody can knock these three balls in, this man can."
David Taylor, 11 January 1982, as Steve Davis prepared to pot the blue, in making the first 147 break on television.Comment
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R. 393 update: solved by abextra as well now. Congratulations to all and time to close that round, if anybody feels like putting up his solution with a short explanation...
and R. 394 Joining Colours
ways.bmp
The above diagrams represent snooker balls on parts of the snooker table.
For each of the two cases join same coloured balls by laying out unbroken lines of touching balls of the same colour between them (horizontal or vertical lines or rightangled turns, and lines obviously don't intersect or overlap)Comment
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