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A cardinal number connected to the solvability of systems of difference equations in a given function class

Обложка книги A cardinal number connected to the solvability of systems of difference equations in a given function class

A cardinal number connected to the solvability of systems of difference equations in a given function class

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Let ℝℝ denote the set of real valued functions defined on the real line. A map D: ℝℝ → ℝℝ is said to be a difference operator if there are real numbers a i, b i (i = 1, :, n) such that (Dƒ)(x) = ∑ i=1 n a i ƒ(x + b i) for every ƒ ∈ ℝℝand x ∈ ℝ. By a system of difference equations we mean a set of equations S = {D i ƒ = g i: i ∈ I}, where I is an arbitrary set of indices, D i is a difference operator and g i is a given function for every i ∈ I, and ƒ is the unknown function. One can prove that a system S is solvable if and only if every finite subsystem of S is solvable. However, if we look for solutions belonging to a given class of functions then the analogous statement is no longer true. For example, there exists a system S such that every finite subsystem of S has a solution which is a trigonometric polynomial, but S has no such solution; moreover, S has no measurable solutions. This phenomenon motivates the following definition. Let be a class of functions. The solvability cardinal sc( ) of is the smallest cardinal number κ such that whenever S is a system of difference equations and each subsystem of S of cardinality less than κ has a solution in , then S itself has a solution in . In this paper we determine the solvability cardinals of most function classes that occur in analysis. As it turns out, the behaviour of sc( ) is rather erratic. For example, sc(polynomials) = 3 but sc(trigonometric polynomials) = ω 1, sc({ƒ: ƒ is continuous}) = ω 1 but sc({f : f is Darboux}) = (2 ω )+, and sc(ℝℝ) = ω. We consistently determine the solvability cardinals of the classes of Borel, Lebesgue and Baire measurable functions, and give some partial answers for the Baire class 1 and Baire class α functions.
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