Timeline for Norms as Points in $C(X)$

Current License: CC BY-SA 4.0

16 events

when toggle format	what		by	license	comment
Jun 15, 2020 at 7:27	history	edited	CommunityBot		Commonmark migration
Sep 11, 2019 at 15:10	comment	added	user30211		Here is an analogy: A local ring is a (commutative) ring $R$ with a map $f : R \rightarrow k$ such that $f(x)$ is invertible implies $x$ is invertible. A "local submultiplicative seminormed space" could be defined to be a (commutative) ring $R$ with a submultiplicative seminorm $\|\| \cdot \|\| : R \rightarrow \mathbb{R}$, such that $\|\|a\|\|$ is invertible implies $a$ is invertible and $\|\|a^{-1}\|\| = \|\|a\|\|^{-1}$. This is equivalent to being a multiplicative seminormed ring.
Sep 5, 2019 at 12:50	history	edited	Jochen Wengenroth		fa tag added
Sep 5, 2019 at 12:50	answer	added	Jochen Wengenroth		timeline score: 8
Sep 1, 2019 at 13:54	comment	added	Uri Bader		related: mathoverflow.net/q/243946/89334
Aug 31, 2019 at 17:38	answer	added	Jakob Werner		timeline score: 3
Aug 31, 2019 at 16:46	history	edited	user30211	CC BY-SA 4.0	added 19 characters in body
Aug 31, 2019 at 15:52	comment	added	Joe Silverman		What you are looking at seems as if it is related to the theory of Berkovich spaces en.wikipedia.org/wiki/Berkovich_space .
Aug 31, 2019 at 15:28	history	edited	user30211	CC BY-SA 4.0	added 46 characters in body
Aug 31, 2019 at 15:09	history	edited	LSpice	CC BY-SA 4.0	Fixed TeX: \|\| -> \abs{}
Aug 31, 2019 at 14:53	history	edited	user30211	CC BY-SA 4.0	edited title
Aug 31, 2019 at 14:48	vote	accept	CommunityBot		moved from User.Id=30211 by developer User.Id=481663
Aug 31, 2019 at 14:40	answer	added	Terry Tao		timeline score: 8
Aug 31, 2019 at 13:58	history	edited	user30211	CC BY-SA 4.0	added 17 characters in body
Aug 31, 2019 at 13:51	history	edited	user30211	CC BY-SA 4.0	added 85 characters in body
Aug 31, 2019 at 13:45	history	asked	user30211	CC BY-SA 4.0

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