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On certain rings of e-valued continuous functions Chew, Kim-Peu
Abstract
Let C(X,E) denote the set of all continuous functions from a topological space X into a topological space E. R. Engelking and S. Mrowka [2] proved that for any E-completely regular space X [Definition 1.1], there exists a unique E-compactification [formula omitted] [Definitions 2.1 and 3.1] with the property that every function f in C(X,E) has an extension f in [formula omitted]. It is proved that if E is a (*)-topological division ring [Definition 5-5] and X is an E-completely regular space, then [formula omitted] is the same as the space of all E-homomorphisms [Definition 5.3] from C(X,E) into E. Also, we establish that if E is an H-topological ring [Definition 6.1] and X, Y are E-compact spaces [Definition 2.1], then X and Y are homeomorphic if, and only if, the rings C(X,E) and C(Y,E) are E-isomorphic [Definition 5.3]. Moreover, if t is an E-isomorphism from C(X,E) onto C(Y,E) then [formula omitted] is the unique homeomorphisms from Y onto X with the property that [formula omitted] for all f in C(X,E), where π is the identity mapping on X and t is a certain mapping induced by t. In particular, the development of the theory of C(X,E) gives a unified treatment for the cases when E is the space of all real numbers or the space of all integers. Finally, for a topological ring E, the bounded subring C*(X,E) of C(X,E) is studied. A function f in C(X,E) belongs to C*(X,E) if for any O-neighborhood U in E, there exists a 0-neighborhood V in E such that f[X]•V c U and V•f[X] c U. The analogous results for C*(X,E) follow closely the theory of C(X,E); namely, for any E*-completely regular space X [Definition 9.5], there exists an E*-compactification [formula omitted] of X such that every function f in C (X,E) has an extension f in [formula omitted] when E is the space of all nationals, real numbers, complex numbers, or the real quaternions, [formula omitted] is just the space of all E-homomorphisms from C*(X,E) into E. This is also valid for a topological ring E which satisfies certain conditions. Also, two E*-compact spaces [Definition 10.1] X and Y are homeomorphic if, and only if, the rings C*(X,E) and C*(Y,E) are E-isomorphic, where E is any H*-topological ring [Definition 12.8].
Item Metadata
| Title |
On certain rings of e-valued continuous functions
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| Creator | |
| Publisher |
University of British Columbia
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| Date Issued |
1969
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| Description |
Let C(X,E) denote the set of all continuous functions
from a topological space X into a topological space E.
R. Engelking and S. Mrowka [2] proved that for any E-completely
regular space X [Definition 1.1], there exists a unique E-compactification
[formula omitted] [Definitions 2.1 and 3.1] with the property
that every function f in C(X,E) has an extension f in [formula omitted].
It is proved that if E is a (*)-topological division
ring [Definition 5-5] and X is an E-completely regular space,
then [formula omitted] is the same as the space of all E-homomorphisms
[Definition 5.3] from C(X,E) into E. Also, we establish that
if E is an H-topological ring [Definition 6.1] and X, Y are
E-compact spaces [Definition 2.1], then X and Y are homeomorphic
if, and only if, the rings C(X,E) and C(Y,E) are E-isomorphic
[Definition 5.3]. Moreover, if t is an E-isomorphism from
C(X,E) onto C(Y,E) then [formula omitted] is the unique homeomorphisms
from Y onto X with the property that [formula omitted] for all
f in C(X,E), where π is the identity mapping on X and t
is a certain mapping induced by t. In particular, the development
of the theory of C(X,E) gives a unified treatment for the cases
when E is the space of all real numbers or the space of all
integers.
Finally, for a topological ring E, the bounded subring
C*(X,E) of C(X,E) is studied. A function f in C(X,E) belongs
to C*(X,E) if for any O-neighborhood U in E, there exists a 0-neighborhood V in E such that f[X]•V c U and V•f[X] c U.
The analogous results for C*(X,E) follow closely the theory of
C(X,E); namely, for any E*-completely regular space X
[Definition 9.5], there exists an E*-compactification [formula omitted] of
X such that every function f in C (X,E) has an extension f
in [formula omitted] when E is the space of all nationals, real numbers,
complex numbers, or the real quaternions, [formula omitted] is just the space
of all E-homomorphisms from C*(X,E) into E. This is also valid
for a topological ring E which satisfies certain conditions. Also,
two E*-compact spaces [Definition 10.1] X and Y are homeomorphic
if, and only if, the rings C*(X,E) and C*(Y,E) are E-isomorphic, where E is any H*-topological ring [Definition 12.8].
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| Genre | |
| Type | |
| Language |
eng
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| Date Available |
2012-03-07
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| Provider |
Vancouver : University of British Columbia Library
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| Rights |
For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
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| DOI |
10.14288/1.0080624
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| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
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| Campus | |
| Scholarly Level |
Graduate
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| Aggregated Source Repository |
DSpace
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For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.