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Originally Posted by Semih_Sayginer
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I forgot to mention, please show evidence of your working. If you looked it up on the internet, the link will suffice .
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I agree (as long as we assume that the birthdays are independent and uniformly distributed through the year - so, we don't, for instance, invite the Olsen twins).Originally Posted by Semih_Sayginer"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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i forgot to mention that ive done this question before, and also read up on "birthday paradox" and remembered the figureOriginally Posted by The StatmanI forgot to mention, please show evidence of your working. If you looked it up on the internet, the link will suffice .Comment
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Edit 2 - deleted ugly table... now appears 2 posts below.
Edit 1 - sorry - that looks horrible. I can't do tables. I'll see if I can paste it somehow as a picture"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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I've tried to put the table in as a .bmp or Word document but whatever I do, it says the file size is too big...
"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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Hopefully this is semi-legible
Person . Col. A...Column B...Column C
1
2 ….. 364/365 ….. 99.73% ….. 0.27%
3 ….. 363/365 ….. 99.18% ….. 0.82%
4 ….. 362/365 ….. 98.36% ….. 1.64%
5 ….. 361/365 ….. 97.29% ….. 2.71%
6 ….. 360/365 ….. 95.95% ….. 4.05%
7 ….. 359/365 ….. 94.38% ….. 5.62%
8 ….. 358/365 ….. 92.57% ….. 7.43%
9 ….. 357/365 ….. 90.54% ….. 9.46%
10 ….. 356/365 ….. 88.31% ….. 11.69%
11 ….. 355/365 ….. 85.89% ….. 14.11%
12 ….. 354/365 ….. 83.30% ….. 16.70%
13 ….. 353/365 ….. 80.56% ….. 19.44%
14 ….. 352/365 ….. 77.69% ….. 22.31%
15 ….. 351/365 ….. 74.71% ….. 25.29%
16 ….. 350/365 ….. 71.64% ….. 28.36%
17 ….. 349/365 ….. 68.50% ….. 31.50%
18 ….. 348/365 ….. 65.31% ….. 34.69%
19 ….. 347/365 ….. 62.09% ….. 37.91%
20 ….. 346/365 ….. 58.86% ….. 41.14%
21 ….. 345/365 ….. 55.63% ….. 44.37%
22 ….. 344/365 ….. 52.43% ….. 47.57%
23 ….. 343/365 ….. 49.27% ….. 50.73%
Column A = Probability birthday of latest arrival differs from others here so far
Column B = Probability all birthdays differ of those here so far (cumulative product of column A)
Column C = 100% - column B = Probability at least 2 people share a birthday.
Assumes 365 days a year (ignores leap years)"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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test
but don't worry, it is all readable....
now this has size limitations, anything bigger and not doable...Comment
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Yes, that's what it looked like on my screen!"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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D_G check me on this question pleaseOriginally Posted by davis_greatest
In continuation to the circle puzzles. The circle meanwhile has 12 members, each sitting at different distances from eachother (thus each pair with different distance). Now each member rolls one snookerball to the player closest in distance.
What is the highest # of balls one player can thus receive
and how would the answer change when adding new members to the ring?Comment
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Sorry, snookersfun - what do you mean?Originally Posted by snookersfunD_G check me on this question please
Edit: oh, do you mean that you would like me to check the answer to the question you have just posed? I was thinking maybe you meant that you had answered question 52 somewhere and that I had missed it."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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Um.... 2? And the answer wouldn't change?Originally Posted by snookersfunD_G check me on this question please
In continuation to the circle puzzles. The circle meanwhile has 12 members, each sitting at different distances from eachother (thus each pair with different distance). Now each member rolls one snookerball to the player closest in distance.
What is the highest # of balls one player can thus receive
and how would the answer change when adding new members to the ring?"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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no, check, if it is a valid question
and I think it is more than 2...Comment
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sorry, rethink!Originally Posted by snookersfunD_G check me on this question please
In continuation to the circle puzzles. The circle meanwhile has 12 members, each sitting at different distances from eachother (thus each pair with different distance). Now each member rolls one snookerball to the player closest in distance.
What is the highest # of balls one player can thus receive
and how would the answer change when adding new members to the ring?
The members are not forming a circle anymore....Comment
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Originally Posted by snookersfun So how are they positioned?
"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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The Statman, has this been answered as intended - and if so, how are you scoring it - or is it still open?Originally Posted by The Statman"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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