Talk:Reflection principle

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What about "reflection principle" as in complex variables?

To 24.199.94.94: Please sign your contributions to talk with four tildas, i.e. ~~~~. I am not familiar with complex analysis or any "reflection principle" in it. If the mathematicians in that area want to write such an article, no doubt, they would create a disambiguation page to distinguish it from this article. Have you tried looking for it by other names? JRSpriggs 06:03, 4 July 2006 (UTC)[reply]

Found it! Schwarz reflection principle -- added reciprocal disambig links on each page Zero sharp 22:02, 12 September 2007 (UTC)[reply]

Does anyone know whether there is an article on the reflection principle for Brownian motion yet? siℓℓy rabbit (talk) 11:48, 13 September 2008 (UTC)[reply]

Yes. Just created recently, and needs some work. See Reflection principle (Wiener process). — Arthur Rubin (talk) 20:43, 14 February 2013 (UTC)[reply]

"Reflection theorem" redirects to "Reflection Principle". There is a well established series of reflection theorems in algebraic number theory, beginning with Scholz in 1932 and continuing through current research by G. Gras. Does anyone know if these other "Reflection Principles" (set theory, complex variables, or Brownian motion) are sometimes referred to as "Reflection Theorems"? If not, then I'll go ahead and stop "Reflection Theorem" from redirecting here. Regardless, it sounds like "Reflection Principle" needs to become a disambiguation page. If I don't get a response soon, I'll just make this one big disambiguation page for both "reflection principles" and "reflection theorems".B2smith (talk) 00:19, 4 December 2008 (UTC)[reply]

I suggest that you add another hat-note, if necessary, rather than make this into a disambiguation page. I am not aware of how Brownian motion is involved in this. I suspect that the reflection theorems are related to this reflection principle, being the application of the same idea to a sub-theory of set-theory. JRSpriggs (talk) 03:30, 5 December 2008 (UTC)[reply]

Okay, I don't know about the Brownian motion either, so maybe it just deserves a hat-note. But I still want to know if "Reflection theorem" is often used as a substitute for "Reflection Principle" in any of the cases: set theory, complex variables, or Brownian motion. The "reflection theorems" in number theory are totally unrelated to the set theoretic "reflection principle". I'd like to stop the redirect from "reflection theorem" to "reflection principle" and give the page to the number theoretic stuff, unless "reflection theorem" is a common synonym for "reflection principle" in set theory. If it is only occasionally used, then I can devote "reflection theorem" to the number-theoretic stuff and put a hat note linking here for people interested in set theory.B2smith (talk) 20:45, 5 December 2008 (UTC)[reply]

Go ahead and change the redirect, reflection theorem. I am only concerned about this article, reflection principle. JRSpriggs (talk) 05:22, 6 December 2008 (UTC)[reply]

Article says:

One form of the reflection principle in ZFC says that for any finite set of axioms of ZFC we can find a countable transitive model satisfying these axioms. (In particular this proves that ZFC is not finitely axiomatizable, because if it were it would prove the existence of a model of itself, and hence prove its own consistency, contradicting Gödel's theorem.)

This is a little bit confusing, since NBG is finitely axiomatizable. Aren't theorems in ZFC supposed to also be true in NBG? 76.195.10.34 (talk) 15:31, 4 March 2009 (UTC)[reply]

Von Neumann–Bernays–Gödel set theory is a conservative extension of Zermelo–Fraenkel set theory. That is, any formula in the language of ZFC will be a theorem of ZFC if and only if it is a theorem of NBG. However, NBG achieves this by adding another type, class, which is not present in ZFC. So the proof used in NBG cannot in general be pushed down into ZFC. Indeed, many of the axioms of NBG cannot even be stated in the language of ZFC.

If you tried to convert NBG into a one-type theory, then you would find that the thing which was the class of all ordinals would become an inaccessible cardinal. It is well known that ZFC+inaccessible cardinal implies the consistency of ZFC, so there would be no problem. JRSpriggs (talk) 16:43, 4 March 2009 (UTC)[reply]

I don't understand this article, because I am not so familiar with set-theory.

The following article refers to this page (at the bottom):

Ω-consistent theory

I do understand the definition there. It is not limited to set theory.

If this is the same kind of reflection, then this article needs a rewrite, because this reflection is not limited to set theory.

If it is not the same, then a new page is needed. Lkruijsw (talk) 20:09, 7 December 2009 (UTC)[reply]

Unfortunately, I think that that article should not be linked to this one but to another one which does not yet exist. "Reflection" is used for many different purposes. JRSpriggs (talk) 06:59, 8 December 2009 (UTC)[reply]

Current wording explains what reflection principle is,but not a motivation. I would expect something along the following lines

The motivation behind the principle is that the universe of sets should be completely undefinable, and therefore if it has a property, it should not be the first, second, nameable set/class with that property - it should be possible to exhibit a smaller set/class satisfying the same property (subject to limitations on allowable properties)

If this is not a valid motivation, the section should start "it was once thought that..." or "some have incorrectly asserted that...", with a wording similar to the above, followed by the currently agreed correct motivation. — Preceding unsigned comment added by 74.37.130.75 (talk) 15:44, 28 May 2013 (UTC)[reply]

"Bernays used a ..." where? 109.153.242.70 (talk) 10:20, 7 May 2016 (UTC)[reply]