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On 2024-11-13 16:14:02 +0000, WM said:No. Covering by intervals is completely independent of their individuality and therefore of their order. Therefore you can either believe in set theory or in geometry. Both contradict each other.
On 13.11.2024 11:39, Mikko wrote:The intervals J(n) are what they are. Translated intervals are not the sameOn 2024-11-12 13:59:24 +0000, WM said:>>Cantor said that all rationals are within the sequence and hence within all intervals. I prove that rationals are in the complement.>
He said that about his sequence and his intervals. Infinitely many of them
are in intervals that do not overlap with any of your J(n).
The intervals J(n) = [n - 1/10, n + 1/10] cover the relative measure 1/5 of ℝ+. By translating them to match Cantor's intervals they cover ℝ+ infinitely often. This is impossible. Therefore set theorists must discard geometry.
intervals. The properties of the translated set depend on how you translate.
For example, if you translate them to J'(n) = (n/100 - 1/10, n/100 + 1/10)By shuffling the same set of intervals which do not cover ℝ+ in the initial configuration, it is impossible to cover more. That's geometry.
then the translated intervals J'(n) wholly cover the postive side of the
real line.
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