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A Moore Strongly Rigid Space

Published online by Cambridge University Press:  20 November 2018

V. Tzannes*
Affiliation:
Department of Mathematics, University of Patras, Fatras, Greece
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Abstract

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It is proved that for every Hausdorff space ℝ and for every Hausdorff (regular or Moore) space X, there exists a Hausdorff (regular or Moore, respectively) space S containing X as a closed subspace and having the following properties:

  • la) Every continuous map of S into ℝ is constant.

  • b) For every point x of S and every open neighbourhood U of x there exists an open neighbourhood V of x, V ⊆ U such that every continuous map of V into ℝ is constant.

  • 2) Every continuous map f of S into S (f ≠ identity on S) is constant.

In addition it is proved that the Fomin extension of the Moore space S has these properties.

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1991

References

1. Brandenburg, H. and Mysior, A., For every Hausdorff space Y there exists a non-trivial Moore space on which all continuous functions into Y are constant, Pacific J. of Mathematics (1)111 (1984), 18.Google Scholar
2. de, J. Groot, Groups represented by homeomorphism groups, I, Math. Ann. 138 (1959), 80102.Google Scholar
3. Iliadis, S. and Tzannes, V., Spaces on which every continuous map into a given space is constant, Canad. J. Math. 6 (1986), 12811296.Google Scholar
4. Kannan, V. and Rajagopalan, M., Constructions and applications of rigid spaces, II, Amer. J. Math. (6)100 (1978), 11391172.Google Scholar
5. Porter, J. and Votaw, C., H-closed extensions, II,Trans.Am. Math. Soc. 202 (1975), 193209.Google Scholar