- 16
- 5
Let's say we have 2 space-time continuums floating in a realm/void/etc. which is naturally arbitrarily bigger than them.
I guess this void would be low 2C in size, as it's quantitatively > 2 2C constructs.
What if this realm encompasses an infinite amount of 2C structures. It'd be bigger than an infinite amount of 2Cs, is that 2-A for simply being bigger or are we reaching complex multiversal, since said realm is not = infinite 2Cs but qualitatively larger than all of them combined.
I assume we can't reach 1-A just yet without any statements on said realm transcending e.g. space and time/the multiverses inside/etc., but are we talking 1-C already, without any indication of that realm having a 5th(/Xth) dimension, even though by vswiki's own definition, any distance between 2 continuums qualifies to be called a 5th dimension?
I guess this void would be low 2C in size, as it's quantitatively > 2 2C constructs.
What if this realm encompasses an infinite amount of 2C structures. It'd be bigger than an infinite amount of 2Cs, is that 2-A for simply being bigger or are we reaching complex multiversal, since said realm is not = infinite 2Cs but qualitatively larger than all of them combined.
I assume we can't reach 1-A just yet without any statements on said realm transcending e.g. space and time/the multiverses inside/etc., but are we talking 1-C already, without any indication of that realm having a 5th(/Xth) dimension, even though by vswiki's own definition, any distance between 2 continuums qualifies to be called a 5th dimension?
