an:05990761
Zbl 1240.39054
Ger, Roman; Kominek, Zygfryd
An interplay between Jensen's and Pexider's functional equations on semigroups
EN
Ann. Univ. Sci. Budap. Rolando Eötvös, Sect. Comput. 35, 107-124 (2011).
0138-9491
2011
j
39B52 20M14
Jensen's functional equation; Pexider's functional equations; commutative semigroups; semigroup homomorphisms
Summary: Let \((S, +)\) and \((G, +)\) be two commutative semigroups. Assuming that the latter one is cancellative, we deal with functions \(f: S\to G\) satisfying the Jensen functional equation written in the form
\[
2f(x + y) = f(2x) + f(2y).
\]
It turns out that three functions \(f, g, h : S\to G\) satisfying the functional equation of Pexider
\[
f(x + y) = g(x) + h(y)
\]
must necessarily be Jensen. The validity of the converse implication is also studied with emphasis placed on a very special Pexider equation
\[
\varphi(x + y) +\delta = \varphi(x) +\varphi(y),
\]
where \(\delta\) is a fixed element of G. Plainly, the main goal is to express the solutions of both: Jensen and Pexider equations in terms of semigroup homomorphisms.
Bearing in mind the algebraic nature of the functional equations considered, we were able to establish our results staying away from topological tools.