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2018-12-31, 00:02
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#12 | |
"Rashid Naimi"
Oct 2015
Remote to Here/There
233310 Posts |
Quote:
 https://en.wikipedia.org/wiki/Empty_product |
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2018-12-31, 00:10
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#13 | |
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Sep 2017
14610 Posts |
Quote:
Yes but we are talking about at least one term here. Last fiddled with by SmartMersenne on 2018-12-31 at 00:11 |
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2018-12-31, 00:38
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#14 | |
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"Rashid Naimi"
Oct 2015
Remote to Here/There
2,333 Posts |
Quote:
Please see post number 6 above. Regardless of if we accept the convention to be valid or not, the ambiguity of the challenge at not clarifying the concept of product-of-distinct-prime makes the challenge problematic. We are left to guessing what the "Puzzle-Master" considers a valid convention. |
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2018-12-31, 01:54
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#15 |
Feb 2017
Nowhere
11000010001002 Posts |
Between the example and the requirement that a play actually does something, there seems to be no difficulty understanding which divisors are allowed. It could have been stated more precisely, but the cavils of the willfully obtuse are probably not a major concern of the folks writing these problems.
There does however appear to be a grammatical oopsadaisy. I believe the last comma in the statement of the problem is misplaced. It should be moved one word to the right, from after "numbers" to after "each." |
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2018-12-31, 02:08
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#16 | |
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"Rashid Naimi"
Oct 2015
Remote to Here/There
2,333 Posts |
Quote:
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2018-12-31, 02:21
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#17 | |
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Sep 2017
2×73 Posts |
Quote:
In the case of allowing a product with no terms: that would get the game into an infinite loop. And if people can't see it, their program will get into an infinite loop, so I would like to see how they will solve it.
Last fiddled with by SmartMersenne on 2018-12-31 at 02:40 |
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2018-12-31, 15:29
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#18 |
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Feb 2017
Nowhere
141048 Posts |
The set B in the example (but not the set A) can easily be expanded to four positive integers. Not that this is of any use in solving the problem, of course...
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2018-12-31, 22:08
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#19 | |
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Sep 2017
2·73 Posts |
Quote:
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2019-01-01, 03:33
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#20 | ||
"Forget I exist"
Jul 2009
Dartmouth NS
2·3·23·61 Posts |
Quote:
Quote:
Last fiddled with by science_man_88 on 2019-01-01 at 03:35 |
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2019-01-01, 15:03
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#21 | ||
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Feb 2017
Nowhere
22×1,553 Posts |
Quote:
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2019-01-01, 17:59
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#22 |
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"Rashid Naimi"
Oct 2015
Remote to Here/There
44358 Posts |
It is quite an interesting challenge.
I have tens of glasses which are 15/16 full but I am quite peptomestic about filling the last 1/16 of any of them. One interesting aspect is that the square root of the sums seem to form in interesting and different patterns. Many are symmetrical around a 45° diagonal. Others form a row of primes then primesx2 then semi-primes then semi-primesx2 and other patterns as well. And of course my posts would not be complete without a few painfully annoying nags to some: The challenge does not define any rules regarding repeating terms within/between the two sets A & B. Without such clarifications many trivial solutions can be found. Last fiddled with by a1call on 2019-01-01 at 18:01 |
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