Flat norm
of an -dimensional polyhedral chain in the space
The norm which is defined as follows:
where is the mass of the chain (cf. Mass and co-mass), is its boundary, and the infimum is taken over all -dimensional polyhedral chains. The properties of the flat norm are
for any cell ; if is the projection of on some plane, one has .
The completion of the linear space of polyhedral chains is a separable Banach space, ; its elements are known as -dimensional flat chains, to each of which an infinite or a finite mass can be assigned: .
The boundary of a flat chain is also defined by passing to the limit; it is a continuous operation, and
The flat norm is the largest of the semi-norms on in which all cells satisfy the inequalities: , . An -dimensional flat cochain is a linear function of -dimensional flat chains (denoted by ) such that, for a given ,
where is the co-mass of . It is an element of the non-separable space dual to . The flat norm of a flat cochain is defined in the standard manner:
so that
and
For the co-boundary of a flat chain (defined by the condition ) one has:
so that
Similar concepts are introduced for polyhedral -dimensional chains situated in open subsets . See also Flat form.
References
[1] | H. Whitney, "Geometric integration theory" , Princeton Univ. Press (1957) MR0087148 Zbl 0083.28204 |
Flat norm. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Flat_norm&oldid=12196