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Title: (a^2+b^2)/(ab+1) Post by BNC on Jun 10th, 2004, 6:29pm After deciding not to attempt adaptation after 2AM, I post this interesting question in it's original form here (it's 4AM...). If I had to choose, I'd place it in "hard" (see background below). Let a and b be positive integers , such that t = (a2+b2)/(ab+1) is an integer. Show that t is also a perfect square. For extra credit, characterise all triplets (a,b,t). background This problem is from IMO98 (so yes, it's solution is available on the web -- not sure about the "extra"). The problem selection committee (6 members, including G. Szekeres), who always try to solve the problems themselvs in order to get first-hand impression about the difficulty of the problem, couldn't solve it. The committee then presented the problem to several number theory experts, asking them to solve it in 6 hours. They failed. Finally, it was decided to use the problem in the 2nd day of the olympics (when the contestants have 4.5 hours to solve 3 questions). Out of ~200 participants that year, 11 solved the problem. So, yes, I'd say it is "hard". Or is it? |
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Title: Re: (a^2+b^2)/(ab+1) Post by towr on Jun 11th, 2004, 12:50am ::[hide] (x, x3, x2) or (x3, x, x2) [/hide]:: |
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Title: Re: (a^2+b^2)/(ab+1) Post by BNC on Jun 11th, 2004, 12:56am 1. That's not a proof! 2. You get partial credit. It doesn't cover, e.g., the triplet (8,30,4). |
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Title: Re: (a^2+b^2)/(ab+1) Post by towr on Jun 11th, 2004, 2:30am I suppose it would have been too simple if that was the only sort of triple.. ::[hide]I only found (8,2,4) to being with, and just guessed at the pattern (x3, x, x2) and after filling it in it worked..[/hide]:: |
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Title: Re: (a^2+b^2)/(ab+1) Post by Barukh on Jun 11th, 2004, 4:28am Excellent puzzle, BNC! 2. Conjecture: [smiley=square.gif][hide] For every integer t, define a sequence {sn} as follows: s0 = 0; s1 = t; sn = t2sn-1 - sn-2. Then, triple (sn, sn+1, t2) satisfies the condition of the problem. The conjecture is that these sequences cover all the cases. [/hide][smiley=square.gif] Of course, it’s not a proof… ::) |
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Title: Re: (a^2+b^2)/(ab+1) Post by BNC on Jun 11th, 2004, 5:30am Briliant! The solution I had requires using a couple of special cases, which your conjecture covers! Now, all you have left is the proof (and, offcourse, the original problem's solution). |
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Title: Re: (a^2+b^2)/(ab+1) Post by THUDandBLUNDER on Jun 18th, 2004, 6:46pm Let t = (a2+b2) / (ab+1) be a positive integer. And, as a = b => t = 1, WLOG let a > b Then a2 - tba + b2 - t = 0.......[1] If the roots of this quadratic in a are a1 and a2 then a1 + a2 = tb........[2] a1a2 = b2 - t.......[3] Hence, if (a1, b) is a solution, then so is (tb - a1, b) And from [3], if a1 > b then a2 < b We thus get a strictly decreasing sequence {sn} of integers given by s0 = a1 s1 = b s2 = tb - a1 ................. .................. ................... sk = tsk-1 - sk-2 |
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Title: Re: (a^2+b^2)/(ab+1) Post by Barukh on Jun 19th, 2004, 2:13am Yes, that's it! ... And the conjecture is correct. Once you see the solution, it looks so simple, doesn't it? ;) What were all those number theorists and other experts thinking? ;D By the way, the problem wasn't at IMO98, it was at IMO88. |
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Title: Re: (a^2+b^2)/(ab+1) Post by BNC on Jun 19th, 2004, 2:21am on 06/19/04 at 02:13:25, Barukh wrote:
Sorry, typo... :( |
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Title: Re: (a^2+b^2)/(ab+1) Post by BNC on Jun 22nd, 2004, 4:34am on 06/19/04 at 02:13:25, Barukh wrote:
How does it show t to be a perfect square? |
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Title: Re: (a^2+b^2)/(ab+1) Post by THUDandBLUNDER on Jun 22nd, 2004, 5:55am on 06/22/04 at 04:34:34, BNC wrote:
I was afraid you would ask that. ::) Well, if we relax the condition that a,b > 0 (provided t > 0), we have sk2 + sk+12 / 1 + sksk+1 = t for k = 0,1,2,3.... If sk+1 = 0 for some value of k, then t = sk2 Assume that there is NO k such that sk+1 = 0 Then, as the sequence is strictly decreasing, there must exist two consecutive terms which are of opposite sign. Thus (a2+b2) / (ab+1) must be either infinite (if ab = -1) or negative (if ab < -1), contradicting the condition that t > 0 |
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