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On 07.11.2024 20:06, Jim Burns wrote:On 11/7/2024 3:46 AM, WM wrote:On 07.11.2024 16:29, Jim Burns wrote:
"Except boundaries" is the key phrase.and shuffle them in a clever way,
then all rational numbers are midpoints of intervals
and no irrational number is outside of all intervals.That means by clever reordering them
you can cover the whole positive axis
except "boundaries".
Those are not the cleverly.re.ordered intervals.Yes.>
In that clever re.ordering, not scrunched together,
the whole positive axis
is in the ε.cover or
in the boundary of the ε.cover.
It is impossible however to cover
the real axis (even many times) by
the intervals
J(n) = [n - 1/10, n + 1/10].
⎛ ε.cover = {[x⁽ᵋₖ,xᵋ⁾ₖ]:k∈ℕ⁺}
⎜ x⁽ᵋₖ = iₖ/jₖ-2¹ᐟ²⋅10⁻ᵏ
⎝ xᵋ⁾ₖ = iₖ/jₖ+2¹ᐟ²⋅10⁻ᵏ
There is an enumeration of ℚ⁺
the set of ratios of ℕ⁺ countable.to from.1
⎛ i/j ↦ kᵢⱼ = (i+j-1)(i+j-2)/2+i
⎜ k ↦ iₖ/jₖ
⎜ iₖ+jₖ = ⌈(2⋅k+¼)¹ᐟ²+½⌉
⎜ iₖ = k-((iₖ+jₖ)-1)((iₖ+jₖ)-2)/2
⎜ jₖ = (iₖ+jₖ)-iₖ
⎝ (iₖ+jₖ-1)(iₖ+jₖ-2)/2+iₖ = k
d is a Cantorian anti.diagonal of
the Cantorian rational.list ⟨iₖ/jₖ⟩
#d#ₖ = (#iₖ/jₖ#ₖ+5) mod 10
For each interval [x⁽ᵋₖ,xᵋ⁾ₖ] in ε.cover#x#ₖ is the -k.th digit of
the decimal representation of real number x
No boundaries are involved becauseI haven't claimed anything at all about
every interval of length 1/5 contains infinitely many rationals and
therefore is essentially covered by infinitely many intervals of length 1/5
- if Cantor is right.
Les messages affichés proviennent d'usenet.