>>8240300
Great question OP, let's break this down.
It sounds like what you meant to ask is:
>Let G be a one-dimensional real Lie group equipped with a transitive action of [math] SO(/infinity) [/math]. Does it follow that the "center" of G is necessarily a fixed point of this action?
Unfortunately, unless you happen to specify an embedding of G into a Euclidean space, the notion of a "center" in this context (not to be confused with the group theoretic notion!) is ill-defined. Ergo, your question is unanswerable as stated.
>>8240300
It depends on whether you are talking about a single point, or an infinitesimal. If it has geometry at all (no matter how small), then it's spinning. If the point is just a theoretical center point, then it's not.
>>8240323
>>8240321
Lets take it in the physics way.
Lets say an atom its the exact center, its rotating?
And if it is, the center of the atom is rotating?
Always in math we see really strange results, but lets try to not get to the infinitesimal point, as it is the euclidian space.
We can say that the Plank Volume is the minimun volume that exist (of at least have
meaning the position) Where is the inflection point?
>>8240321
Can you explain in christian?
I just understand college/highschool geometry.
>>8240300
digital graphics software self rotating brush around self, around circle controled by tablet with pen rotating around... yes, it spins around the internet.
>>8240300
It doesnt matter. Rotation is a meaningless concept for a point
>>8241887
He's a big guy
>>8242010
for him
How can black holes rotate if they're a singularity?
Seems the answer to OP's question is physically yes.
>>8244107
If I understand correctly singularities have a non-infinitesimal diameter.