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Can a structure contain multiple to infinite 2-A structures and still only be 2-A? Or would it have to be L1-C
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Infinities question
- Thread starter Quangotjokes
- Start date
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Infinite 2-A Structures is still 2-A, only uncountably infinite would be Low 1-C.
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What do you mean by “uncountably”? That part confuses me.
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Countable Infinity is equivalent to N or the set of Natural Numbers such as 1, 2, 3, 4... etc. You could theoretically count to infinity by counting natural numbers if given an infinite amount of time.
Uncountable Infinity is equivalent to R or the set of Real Numbers. This includes Natural Numbers as we discussed, Integers such as -1, -2, -3, Rational Numbers such as 5/3 or 0.94.
Even if you counted for an infinite amount of time, you would still only be able to count a single numbers fractions, as fractions are infinite, 0.1, 0.11, 0.111, etc. And even then would still need to do 0.12, 0.122, 0.1222.
As such they are an uncountable infinity, compared to just Natural Numbers which are countable.
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So can I explain it like this? (I would have explained it like this if you hadn't written it):
No matter how much you get from uncountable infinities, you can't get to the root. and higher uncountable infinities are already inaccessible to each other. What root is inaccessible is not structure 1A but inaccessibility with cartesian no matter how many uncountable infinities on top of structure 1A you are.
Infinity * Infinity = Infinity + Infinity + Infinity + Infinity + Infinity -->, just regular infinity
Infinity ^ Infinity = Infinity * Infinity * Infinity * Infinity * Infinity -->,uncountable infinity (Aleph-1)
in short
Can you correct me if I'm wrong.
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Ah that makes sense
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Btw can you give an example in a series?
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Depends on context but for the most part it's usually 2-A.
One could argue uncountably infinite universes though if there's infinite multiverses with infinite universes in each one. But that's a whole other fiasco
One could argue uncountably infinite universes though if there's infinite multiverses with infinite universes in each one. But that's a whole other fiasco
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An example for what?
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Of a series that shows uncountable timelines
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Oh wow that really goes in depth
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thanks
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There is cantor's proof that proves that irrational numbers are greater than natural numbers. using the principle of proof by contradiction
Time: 6:00 min
It's a Thai dubbed video. which I can't find any other video to give an example. I hope you can translate to the language of your country.
Time: 6:00 min
It's a Thai dubbed video. which I can't find any other video to give an example. I hope you can translate to the language of your country.
