Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-11T00:11:21.356Z Has data issue: false hasContentIssue false

First Countable Spaces that Have Special Pseudo-Bases

Published online by Cambridge University Press:  20 November 2018

H. E. White Jr*
Affiliation:
671 Eureka Avenue, Columbus, Ohio 43204
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Two types of pseudo-bases, σ-disjoint and σ-discrète, are utilized in this note. In the next section, we show that a first countable Hausdorff space has a σ-disjoint pseudo-base if and only if it has a dense metrizable subspace. This result implies that many first countable spaces have dense metrizable subspaces. In section 3, we show that if X is a Hausdorff space that either is quasi-developable or has a base of countable order, then X has a dense metrizable subspace if and only if it has a dense metrizable Gδ subspace. We give an example to show that the conclusion of this theorem is false for semi-metrizable spaces. Finally, in the last section, we investigate when a quasi-developable (resp. semi-metrizable) space can be embedded as a dense subspace of a quasi-developable (resp. semi-metrizable) Baire space.

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1978

References

1. Aarts, J. M. and Lutzer, D. J., Completeness properties designed for recognizing Baire spaces, Dissertationes Math (Rozprawy Mat), 116 (1974), 1-48.Google Scholar
2. Burke, D. K. and van, E. K. Douwen, No nice Gs-subspaces in semi-metrizable Baire spaces (Preprint).Google Scholar
3. Choquet, G., Lectures on analysis, Vol. I: Integration and topological vector spaces, Benjamin, New York, 1969.Google Scholar
4. Fitzpatrick, B., On dense subspaces of Moore spaces, Proc. Amer. Math. Soc, 16 (1965), 1324-1328.Google Scholar
5., On dense subspaces of Moore spaces II, Fund. Math. 61 (1967), 91-92.Google Scholar
6. Gillman, L. and Jerison, M., Rings of continuous functions, Van Nostrand, Princeton, N. J., 1960.Google Scholar
7. Heath, R. W., Arcwise connectedness in semi-metric spaces, Pac. J. Math, 12 (1963), 1301- 1319.Google Scholar
8. McAuley, L. F., A relationship between perfect separability, completeness, and normality in semi-metric spaces, Pac. J. Math, 6 (1956), 315-326.Google Scholar
9. Oxtoby, J. C., Cartesian products of Baire spaces, Fund Math, 49 (1960/1961), 157-166.Google Scholar
10. Procter, C. W., Metrizable subsets of Moore spaces, Fund Math, 66 (1969), 85-93.Google Scholar
11. Reed, G. M., Concerning normality, metrizability and the Souslin property in subspaces of Moore spaces, Gen. Top, 1 (1971), 223-246.Google Scholar
12. Reed, G. M., On completeness conditions and the Baire property in Moore spaces, Topo-72-General topology and its applications, Springer-Verlag, 1974, 368-384.Google Scholar
13. Reed, G. M., Concerning first countable spaces, Fund Math, 74 (1972), 161-169.Google Scholar
14. Reed, G. M., Concerning first countable spaces II, Duke Math J, 40 (1973), 677-682.Google Scholar
15. Reed, G. M., Concerning first countable spaces III, Trans. Amer. Math Soc, 210 (1975), 169-177.Google Scholar
16. White, H. E. Jr Topological spaces in which Blumberg's theorem holds, Proc. Math. Soc, 44 (1974), 454-462.Google Scholar
17. White, H. E. Jr, Topological spaces that are α-favorable for a player with perfect information, Proc. Amer. Math. Soc, 50 (1975), 477-482.Google Scholar
18. Younglove, J. N., Concerning metric subspaces of non-metric spaces, Fund. Math., 48 (1959), 15-25.Google Scholar