Differential geometry
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Why infinite sum need to be made sense ?
My question: For example, the sum in the partition of unity, and the polynomial expression in abstract algebra.Answer: Sums with an infinite number of terms (or "series" in more formal terms) need some extra conditions to make sure they are "well behaved". Otherwise you can get paradoxes like the following:$$\begin{align} &S = 1 + 1 + 1 + \dots \\ &\Rightarrow 2S = 2 + 2 + 2 + \dots \\ &\Rightarrow 2S = (1+1) + (1+1) + (1+1) + \dots \\ &\Rightarrow 2S = 1 + 1 + 1 + \dots \\ &\Rightarrow 2S=S \\ &\Rightarrow S = 0 \end{align}$$Typically the extra conditions involve requiring all but a finite number of the terms to be $0$ ("almost all" in mathematical shorthand) or convergence conditions to make sure that the sum has a limiting value.This question was asked on January 22, 2020, when I was in my senior year of high school. My questioning was very poor ๐
. This is incomparable to someone like Peter Scholze who already known spectral sequences in high school ๐ใ
2024-10-25 18:15:49A question about smooth invariance of domain
My question: Theorem 22.3 (Smooth invariance of domain). Let $U \subset\mathbb{R}^n$ be an open subset, $S \subset\mathbb{R}^n$ an arbitrary subset, and $f : U \rightarrow S$ a diffeomorphism. Then $S$ is open in $\mathbb{R}^n$.I can't understand why the set $S$ is not automatically open in $\mathbb{R}^n$. The mapping is a diffemorphism, which means it is continuous in both directions, so $S$ is open.Answer: All you know a priori, is that open sets $V$ of $U$ satisfy: $f(V)$ is open in $S$, not that $f(V)$ is open in $\mathbb{R}^n$. So, $f(U)=S$ is open in $S$. The claim is then that $f(U)=S$ is actually open in $\mathbb{R}^n$, which is not the same thing and is not automatic. It requires proof.This speaks of an important blind spot of open sets in topology, i.e. openness is relative. In particular, when considering some subset of a topological space, you should figure out if it is open in the subset, or in the ambient space.
2024-11-06 19:32:51