Difference between revisions of "The real numbers"

	The real numbers
	[ilmath]\mathbb{R} [/ilmath]

Revision as of 13:44, 2 June 2016

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The set of real numbers, [ilmath]\mathbb{R} [/ilmath], is the quotient space, [ilmath]\mathscr{C}/\sim[/ilmath] where:^[1]

[ilmath]\mathscr{C} [/ilmath] - the set of all Cauchy sequences in [ilmath]\mathbb{Q} [/ilmath] - the quotients
[ilmath]\sim[/ilmath] - the usual equivalence of Cauchy sequences

We further claim:

that the familiar operations of addition, multiplication and division are well defined and
by associating [ilmath]x\in\mathcal{Q} [/ilmath] with the sequence [ilmath] ({ x_n })_{ n = 1 }^{ \infty }\subseteq \mathbb{Q} [/ilmath] where [ilmath]\forall n\in\mathbb{N}[x_n:=x][/ilmath] we can embed [ilmath]\mathbb{Q} [/ilmath] in [ilmath]\mathbb{R}:=\mathscr{C}/\sim[/ilmath]

Vector space
Field ([ilmath]\implies\ \ldots\implies[/ilmath] ring)
Complete metric space ([ilmath]\implies[/ilmath] topological space)
- With the metric of absolute value

TODO: Flesh out

If [ilmath]S\subseteq\mathbb{R} [/ilmath] is a non-empty set of real numbers that has an upper bound then^[2]:

@@ Line 6: / Line 6: @@
 ===[[Axiomatic construction of the real numbers]]===
 {{:Axiomatic construction of the real numbers/Definition}}
+=={{M|\mathbb{R} }} is an example of:==
+* [[Vector space]]
+* [[Field]] ({{M|\implies\ \ldots\implies}} [[ring]])
+* [[Complete metric space]] ({{M|\implies}} [[topological space]])
+** With the metric of [[absolute value]]
+{{Todo|Flesh out}}
+==Properties==
+{{Collapsible box|title=
+* The [[axiom of completeness]] - a badly named property that isn't really an [[axiom]].
+|content={{:Axiom of completeness/Statement}}}}
 ==Notes==
 <references group="Note"/>