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Hausdorff paradox (Theorem)

Let $ S^2$ be the unit sphere in the Euclidean space $ \mathbb{R}^3$. Then it is possible to take “half” and “a third” of $ S^2$ such that both of these parts are essentially congruent (we give a formal version in a minute). This sounds paradoxical: wouldn't that mean that half of the sphere's area is equal to only a third? The “paradox” resolves itself if one takes into account that one can choose non-measurable subsets of the sphere which ostensively are “half” and a “third” of it, using geometric congruence as means of comparison.

Let us now formally state the Theorem.

Theorem 1 (Hausdorff paradox [H])   There exists a disjoint decomposition of the unit sphere $ S^2$ in the Euclidean space $ \mathbb{R}^3$ into four subsets $ A,B,C,D$, such that the following conditions are met:
  1. Any two of the sets $ A$, $ B$, $ C$ and $ B\cup C$ are congruent.
  2. $ D$ is countable.

A crucial ingredient to the proof is the axiom of choice, so the sets $ A$, $ B$ and $ C$ are not constructible. The theorem itself is a crucial ingredient to the proof of the so-called Banach-Tarski paradox.

Bibliography

H
F. HAUSDORFF, Bemerkung über den Inhalt von Punktmengen, Math. Ann. 75, 428-433, (1915), http://dz-srv1.sub.uni-goettingen.de/sub/digbib/loader?did=D28919 (in German).



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"Hausdorff paradox" is owned by GrafZahl.
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See Also: choice function, Banach-Tarski paradox, proof of Banach-Tarski paradox

Keywords:  paradox, unit ball, decomposition

Attachments:
proof of Hausdorff paradox (Proof) by GrafZahl
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Cross-references: Banach-Tarski paradox, countable, disjoint, subsets, area, sphere's, paradoxical, congruent, Euclidean space, unit sphere
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This is version 6 of Hausdorff paradox, born on 2005-05-15, modified 2006-12-24.
Object id is 7057, canonical name is HausdorffParadox.
Accessed 2938 times total.

Classification:
AMS MSC51M04 (Geometry :: Real and complex geometry :: Elementary problems in Euclidean geometries)
 03E25 (Mathematical logic and foundations :: Set theory :: Axiom of choice and related propositions)
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