Tier 1 would need statements of 5D or infinitesimal difference right?
I guess even if it doesn't have infinite number of space-time continuums for 2-A, if the structure is large enough to contains infinite number of space-time continuums and there is a reference or context for it, it can be 2-A, but what i see here is "possibly" or "likely" 2-A.(I guess)
Yeah it is 2A for the very save rating. It can be low 1C for sure
Being infinitely bigger than universe is just same as see the universe as infinitely small or infinitesimall
For it to be completely 2-A, it needs the context that it can contains infinite number universes( As said here) but still okay. Other than that, that's not even tier 1
Yeah no, this is not it either. Here, being infinitely larger than any infinite 4-D structure(Low 2-C or 2-A) or seeing it as a small piece does not give you Tier 1.(Not enough)
I guess tensura had an extra statement like "no matter how much it is filled, it never ends or fills" (or some similar bullshit)
I don't remember that can you check the upgrade thread send the quotes? Because I am pretty sure there was no arguments made like that. I might be wrong though so let's just be sureI guess tensura had an extra statement like "no matter how much it is filled, it never ends or fills" (or some similar bullshit)
Bruh if a structure is infinite in size and can contain a universes, it mean it still have a infinite size that can fill with infinite universes
Yeah no, DT missunderstand whats the discussion mean, it not about add infinite size to the 4D as like he mention infinite×4D. Is about being infinitely bigger than the fully structure of 4D, so we cannot add the infinite size inside the 4D structure
This still doesn't mean that, just as doesn't mean that an infinite space-time continuum can hold an infinite number of universes, it doesn't mean 2-A either. It's still Low 2-C.
No, DT was definitely talking about being infinitely larger than 2-A or Low 2-C structure and treating them as small pieces, and yes that's not tier 1.
In short, you can be infinitely larger than an infinite 4-D structure and still be 4-D.
Also, being infinitely large in the sense of "size" does not give you an extra axis. It's like saying that anything you draw on paper that is 2-dimensional and visible to the eye has more axes than the invisible atom.
So infinitesimal have so far different context than being infinitely large(I apologize to the person I stole these from.)In mathematics, a non-measurable set is a set which cannot be assigned a meaningful "volume". The mathematical existence of such sets is construed to provide information about the notions of length, area and volume in formal set theory. In Zermelo–Fraenkel set theory, the axiom of choice entails that non-measurable subsets of �
exist.
Look at the threads in the links I quoted above. You will see both DT's answers and the contexts (and that's where I learned the context, Lmao)
Seems odd.
Hmmmm... Are you talking about infinite dimensions? Shouldn't a spatially infinite dimensions also be qualitatively superior to each other?
Btw I didn't answer you, I asked a question
Can hold an infinite number of universes it doesnt mean 2A???
Bruh the quote you brough is not say infinitely bigger than infinite size, it just say bigger than infinitely size. Where it say infinitelt bigger???
Yeah where the source of that argument?? Bruh infinitesimall or infinitely small means infinitely divided, of being divided again and again to infinity, it also being use for the integral and zeno paradox. So if A is infinitely small in perpective of B, then B is infinitely bigger in the perpective of A. Because if you reverse the infinitely divided it mean you need united the small piece that being smaller infinitely that will give you a piece that being bigger infinitely or yeah infinitely bigger
And yeah infinitely larger than infinite is mean larger infinite cardinal, higher infinity that will give you more dimensional axis
Not always by default, so why don't we assume that an infinite Low 2-C universe is also 2-A? Because it's wrong
In order for a structure to be 2-A, it must first be infinite.
You go to the whole in the form of an assumption... The context of the two is very different.
Lmao no, it never says anything like that. When you add infinity to infinity, you still get the same degree of infinity. (Or
In short, you can be infinitely larger in size than a structure with infinite volume, but this does not necessarily mean higher dimensionality.
False equalization. We talk about structure that contain the low 2C structure, it is independent from that structure. Why you brought the same low 2C structure and add infinite size to it???
Where in the standard say about that???
You not even say anything about this. It literally write in the standard that we use
Assumption??? Bruh i give you link about my argument. Where the source of your argument about infinitesimall???
Are you learn about cardinality??? What is that???
You quoting that. Where in that quote say "infinitely bigger than infinity". Is literally just explain about "bigger than infinitely size". There are no word like "infinitely bigger than infinity" in that. Just show me where
Because they are both infinite, but being infinite does not necessarily mean contains infinite amounts of something.
You don't understand being infinitely larger in the sense of volume that I quoted perhaps 55 times above.
You haven't even looked at the links and articles I quoted above and you are trying to answer, go up and look.
That's why I said think of it as a set.
Read what I said carefully, I explain the difference between being infinitely larger than an infinite volume and being infinitely larger than an infinite "size". Also, what DT said supports what I said with Ultima.
So you call a line infinitely larger than an infinite line is 2-dimensional.
What I said above also applies here.
No no, the one is are the structure and the other is contain that structure. Your example is false equalization
No, i say where the standard write about that???
No i look the link that you quote about the standard and no word in that say about "infinitely larger than infinity". So i ask you where it say about that in your quote???
I ask you, you know what is cardinality mean???
No i talking about the standard that you quote. Where in that write about "infinitely bigger than infinity"??? Where???
And you in here just ignore the argument that we talking about the infinitesimall. Where the argument of non-measurable set???
Bruh.. this is not staff thread or even a content revision thread. It just ask and answer thread. I dont know if we have any rule about this, we still in context of the discussion not outside the context. So i dont know why we cannot discuss any longer about this???
Exactly this, we are in a Q&A thread, not in a CRT nor Staff thread, people here are discussing their point of view regarding the question to see of they can come to a conclusion, is not KLOL's right to start threatening with calling administrators and report to RVT when there's not even a single violation here. It would been different if OP said to not discuss anymore and wait for input from others but they aren't deviating from the main question of this thread, take this as an advice KLOL.
Because I'm pretty sure this question was tackled in the other thread Andika made regarding 4D.
Yes, you know what kind of statement they made about this topic before, that's what I was trying to say.
I'd rather this thread remain open for all the staff tagged to respond to this.
