Formal Definition
Let be a metric space. If and, the -dimensional Hausdorff content of is defined by
In other words, is the infimum of the set of numbers such that there is some (indexed) collection of balls covering with for each which satisfies . (Here, we use the standard convention that inf Ø =∞.) The Hausdorff dimension of is defined by
Equivalently, may be defined as the infimum of the set of such that the -dimensional Hausdorff measure of is zero. This is the same as the supremum of the set of such that the -dimensional Hausdorff measure of is infinite (except that when this latter set of numbers is empty the Hausdorff dimension is zero).
Read more about this topic: Hausdorff Dimension
Famous quotes containing the words formal and/or definition:
“Then the justice,
In fair round belly with good capon lined,
With eyes severe and beard of formal cut,
Full of wise saws and modern instances;
And so he plays his part.”
—William Shakespeare (1564–1616)
“... we all know the wag’s definition of a philanthropist: a man whose charity increases directly as the square of the distance.”
—George Eliot [Mary Ann (or Marian)