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Automorphisms of the semigroup of all differentiable functions

Published online by Cambridge University Press:  18 May 2009

Kenneth D. Magill Jr
Affiliation:
State University of New YorkBuffalo
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Let R denote the space of real numbers and let D(R) denote the family of all functions mapping R into R that are (finitely) differentiable at each point of R. Since the composition f o g of two differentiable functions is also differentiable and since the composition operation is associative, it follows that D(R) is a semigroup with this operation. Such semigroups have been studied previously. Nadler, in [4], has shown that the semigroup of al differentiable functions mapping the closed unit interval into itself has no idempotent elements other than the identity function and the constant functions. The proof of that result carries over easily to the semigroup D(R).

Type
Research Article
Copyright
Copyright © Glasgow Mathematical Journal Trust 1967

References

1.Clifford, A. H. and Preston, G. B., The algebraic theory of semigroups, Amer. Math. Soc. Math. Surveys, No. 7, (1961).CrossRefGoogle Scholar
2.Ljapin, E. S., Semigroups, Translations of Mathematical Monographs, Vol. 3, Amer. Math. Soc., (1963).CrossRefGoogle Scholar
3.Magill, K. D. Jr, Semigroups of continuous functions, Amer. Math. Monthly 71 (1964), 984988.CrossRefGoogle Scholar
4.Nadler, S. B. Jr, The idempotents of a semigroup, Amer. Math. Monthly 70 (1963), 996997CrossRefGoogle Scholar
5.Natanson, I. P., Theory of functions of a real variable, Vol. I, Frederick Ungar Publishing Co. (New York, 1955).Google Scholar