From: Archimedes Plutonium on 12 Aug 2010 18:53 Archimedes Plutonium wrote: (all else snipped) > > For the case of 14 as where Goldbach fails we have (K-2,2) repair kit > which is (12,2) > We thus have ((7,5),2) which yields: > (7,7) in case of +2 > (9,5) in case of +2 > (11,3) in case of +4-2 > (5,9) in case of +4-2 > (13,1) in case of +6-4 > (3,11) in case of +6-4 > (1,13) in case of +8-6 > I do not know what the world's easiest proof using Mathematical Induction is? Whether anybody is keeping tabs on that piece of information. I had a knap today, pretty hot here today with high humidity. Had the cats fed and the horses pastured and ate some grapes, plums and picked a watermelon and after eating the watermelon had a knap. And when I woke up just now, remembered I was working on this devilish problem of the Goldbach conjecture. One thing I have now that I did not have in 1991 was this Repair Kit of (K-2,2). And so, in my knap, I must have dreamed that perhaps the Goldbach is the world's hardest and oldest unsolved problem in number theory but the world's easiest mathematical induction. We have it true for the case of 8 using the Repair-Kit (K-2,2) goes to (6,2) goes to ((3,3),2) goes to (5,3). We have it true for 10 using the Repair- Kit (8,2) goes to ((5,3),2) goes to (5,5). We assume true for case N and must show true for case N+2. So for case N we have true that (K-2,2) goes to ((p_i,p_j), 2) where the p's are two primes, and it is true that (p_i , p_j +2 = prime p_k) But now, is not the case N+2 shown true because of the fabulousness of the Repair Kit that N+2 is true since case N gives us N+2? Is it the case that the fabulous picking of the Repair-Kit delivers a Mathematical Induction proof of Goldbach, that the case of N is saying that K-2 delivers the primes of p_i and p_k for case N+2. So in my knap this afternoon, of sleeping on Goldbach, the world's oldest and thus hardest unsolved problem in Number theory turns out to be the world's easiest proof by Mathematical Induction? Is this possible? Well, another thing I have today that I never had in 1991 was the idea that a proof in Mathematics actually involves all the numbers, if Natural Numbers, from 0 to 10^500, so that if I can show Goldbach is true for all the numbers from 0 to 10^500 constitutes the best possible proof of Goldbach. I forgotten the latest tally of where Goldbach has been shown to be true? Somewhere around 10^200. But Goldbach, as well as Riemann Hypothesis as well as Fermat's Last theorem maybe in that class or category of mathematical proofs that can only be proven true or false by showing them true for all the numbers from 0 to 10^500. Since Physics ends with 10^500, then mathematics, a subset of physics ends at 10^500, or should I say that infinity starts at 10^500. So I have alot more things here in 2010 that I did not have in 1991. I have the Goldbach Repair Kit, and I have the idea that math ends at 10^500 where infinity starts. We also know two facts pertinent to Goldbach in that Primes are infinite and pairs of them >2, form even numbers when added, and we know from my recent proof of the Polignac conjecture that we have an infinitude of 2 metric primes, 4 metric primes, 6 metric primes ad infinitum. So if Goldbach is false, does it die out at one spot of a even number and then picks up at the next higher even number, or does it die out at one spot and never again obeys Goldbach? If the Galois Algebra mirror image proof that all even numbers >4 are the product of at minimum two primes converted to addition preserves that minimum two primes for Goldbach summands. If that can be converted to addition means Goldbach is obviously true for all even numbers >4. But perhaps, I have located a Repair Kit that is so powerful that it renders the Goldbach conjecture to mathematical induction. It does so because you cannot have a 14 not obey Goldbach if a 12 obeys Goldbach. Likewise if a N obeys Goldbach than a N+2 must obey Goldbach. So I went to sleep in a knap, dreaming of Goldbach, the hardest oldest problem and dreamed that it became the world's easiest proof by Mathematical Induction. Is my dream true? Archimedes Plutonium http://www.iw.net/~a_plutonium/ whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies
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