Timewise-average function: Difference between revisions

Latest revision as of 20:10, 18 May 2008

Definition

Let $M$ be a differential manifold equipped with a measure over which we can integrate.

Let $u : R \times M \to R$ be any continuous function. Then the timewise-average function of $u$ is a map $f : R \to R$ defined by:

$f (t) = \frac{\int_{M} u (t, x) d x}{\int_{M} d x}$

For instance, the above notion makes sense if we embed the manifold in Euclidean space and look at the induced measure, or in a Riemannian manifold where we take the naturally induced measure.

@@ Line 1: / Line 1: @@
-{{scalar function}}
 ==Definition==
@@ Line 9: / Line 8: @@
 <math>f(t) = \frac{\int_M u(t,x) dx}{\int_M dx}</math>
-For instance, the above notion makes sense if we embed the manifold in Euclidena space and look at the induced measure.
+For instance, the above notion makes sense if we embed the manifold in Euclidean space and look at the induced measure, or in a [[Riemannian manifold]] where we take the naturally induced measure.
 ==Related notions==