MDC-2: Difference between revisions

Revision as of 16:37, 14 March 2013

Template:Otheruses4 In mathematics, a rectifiable set is a set that is smooth in a certain measure-theoretic sense. It is an extension of the idea of a rectifiable curve to higher dimensions; loosely speaking, a rectifiable set is a rigorous formulation of a piece-wise smooth set. As such, it has many of the desirable properties of smooth manifolds, including tangent spaces that are defined almost everywhere. Rectifiable sets are the underlying object of study in geometric measure theory.

Definition

A subset $E$ of Euclidean space $ℝ^{n}$ is said to be $m$ -rectifiable set if there exist a countable collection ${f_{i}}$ of continuously differentiable maps

f_{i} : ℝ^{m} \to ℝ^{n}

such that the $m$ -Hausdorff measure $ℋ^{m}$ of

E ∖ ⋃_{i = 0}^{\infty} f_{i} (ℝ^{m})

is zero. The backslash here denotes the set difference. Equivalently, the $f_{i}$ may be taken to be Lipschitz continuous without altering the definition.

A set $E$ is said to be purely $m$ -unrectifiable if for every (continuous, differentiable) $f : ℝ^{m} \to ℝ^{n}$ , one has

ℋ^{m} (E \cap f (ℝ^{m})) = 0 .

A standard example of a purely-1-unrectifiable set in two dimensions is the cross-product of the Smith-Volterra-Cantor set times itself.

References

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External links

Rectifiable set at Encyclopedia of Mathematics

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+{{otheruses4|rectifiable sets in measure theory|rectifiable curves|Arc length}}
+In [[mathematics]], a '''rectifiable set''' is a set that is smooth in a certain [[measure theory|measure-theoretic]] sense. It is an extension of the idea of a [[rectifiable curve]] to higher dimensions; loosely speaking, a rectifiable set is a rigorous formulation of a piece-wise smooth set.  As such, it has many of the desirable properties of smooth [[manifold]]s, including tangent spaces that are defined [[almost everywhere]]. Rectifiable sets are the underlying object of study in [[geometric measure theory]].
+==Definition==
+A subset <math>E</math> of [[Euclidean space]] <math>\mathbb{R}^n</math> is said to be '''<math>m</math>-rectifiable''' set if there exist a [[countable]] collection <math>\{f_i\}</math> of continuously differentiable maps
+:<math>f_i:\mathbb{R}^m \to \mathbb{R}^n</math>
+such that the <math>m</math>-[[Hausdorff measure]] <math>\mathcal{H}^m</math> of
+:<math>E\backslash \bigcup_{i=0}^\infty f_i\left(\mathbb{R}^m\right)</math>
+is zero. The backslash here denotes the [[set difference]]. Equivalently, the <math>f_i</math> may be taken to be [[Lipschitz continuous]] without altering the definition.
+A set <math>E</math> is said to be '''purely <math>m</math>-unrectifiable''' if for ''every'' (continuous, differentiable)  <math>f:\mathbb{R}^m \to \mathbb{R}^n</math>, one has
+:<math>\mathcal{H}^m \left(E \cap f\left(\mathbb{R}^m\right)\right)=0.</math>
+A standard example of a purely-1-unrectifiable set in two dimensions is the cross-product of the [[Smith-Volterra-Cantor set]] times itself.
+==References==
+* {{springer|author=T.C.O'Neil|id=G/g130040|title=Geometric measure theory}}
+==External links==
+* [http://www.encyclopediaofmath.org/index.php/Rectifiable_set Rectifiable set] at [http://www.encyclopediaofmath.org/ Encyclopedia of Mathematics]
+[[Category:Measure theory]]

MDC-2: Difference between revisions

Revision as of 16:37, 14 March 2013

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