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Originally Posted by snookersfun
Meanwhile, Monique has also solved R262. Congratulations
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Very nice opening bids. And yes, they can be bettered.
Meanwhile, Monique has also solved R262. Congratulations
"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. -
... and abextra also has answered R162!
Next answers on the thread please. And if none by noon BST tomorrow, then explanations please on the thread from those who have answered 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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R262 - The break as calculated by Rupert always comes out at 9.
The tricky bit is to proove it is always 9?!Comment
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That's not too difficult!
2*3*4*5*6*7=5040 a multiple of 9
this will multiply any score achieved when reds are exhausted. So the final score will always be a multiple of 9 with sum of digits (recurrently) equals to 0 mod 9 (this is the basis of the "trick" all kids learn at school to check divisibility by 9)
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Thanks Monique. I.e. the final score will always be a multiple of 9 (potting the green for 3 points and then pink for 6 points ensures this) and if you add the digits of any number divisible by 9, you get another number divisible by 9. Keep doing this, and the numbers will get progressively smaller, until you are left with 9.
"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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Cool... you're answering question 1 on the thread?Originally Posted by Morse
Edit: oh, you've deleted your post! Now I'm not sure what to do!
"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 deleted it cos i realised what i did lmaoComment
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LOL. Well, feel free of course to answer any of the earlier ones... just include a link to the post where the question was. For a few seconds, I had wondered what you were talking about!Originally Posted by Morse
"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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haha. lovely one this one was. I wonder how many days it took morse to answer!
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not long about 15 mins after an unsuccessful search for a calculator first time i looked on this thread hence the dumb mistake lol however i could make it more difficult for you ?
the same question with a few more bits added onComment
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Back to question 1 then ()... as noted by Robert (post 2), there are 146+145+144+...+1 matches, and therefore the same number of red balls in the triangle.
You don't need to add this up to answer the question, as you can see that this gives a triangle of 146 rows. If you did add them up, you'd get 147 x 146 / 2 * = 10,731 balls.
* since each of the 147 players plays 146 other players, and we divide by 2 since each match consists of 2 players"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 know you don't play yourself. But each of the 147 players plays the other 146... hence 147 x 146 / 2 = 10,731.Originally Posted by Morse
Looking at it another way, place all 147 players in a line, one in front of another.
There are 146 players behind the person at the front, 145 behind the next person, 144 behind the next, .... and 1 behind the penultimate person.
So it is 146 + 145 + 144 + ... + 2 + 1, which also gives (of course) 10,731. This gives an equilateral triangle with 146 rows."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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just got it you still have a week where you have the bye doh i knew it was easier than i was making itComment
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and stop replying so quick i dont get chance to delete my mistakes go have lunch or somethingComment
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equilateral why?
and why equilateral that just depends on the frame .... now i Know i am right with that one could be isosoles or scalene !Comment
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