关于函数序列收敛性的泰勒定理

Q4 Mathematics

Tatra Mountains Mathematical Publications Pub Date : 2021-10-01 DOI:10.2478/tmmp-2021-0009

G. Horbaczewska, Patrycja Rychlewicz

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引用次数: 0

摘要

Egoroff经典定理证明了从点向收敛可以得到任意小测度集合外的一致收敛。泰勒定理证明了在全测度集合上控制函数序列收敛的可能性。即，对于在可测集合E上点收敛于函数f的每一个实值可测组序列|fn｝n∈＿1，存在一个收敛于0的正实数递减序列|δn｝n∈＿1，且存在一个集a≥≥a，使得E≥a为空集，且对于所有x∈a, limn→+∞|fn(x)−f(x)|δn=0。设J(a, {fn}) {\lim ＿n{\to + \infty}}\frac{{|{f_n}(x) - f(x)|}}{{{\delta _n}}} =0 {\rm{for}}\{\rm{all}}，\，\，x \in a \，{\rm{Let}}\，J(a，\，｛{f＿n}｝)表示所有这样的序列|δn｝n∈＿1的集合。本文的主要结果是关于给定集合a和给定函数序列的所有这类序列的集合的基本性质。考虑了点向收敛、一致收敛和泰勒型收敛之间的关系。

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Around Taylor’s Theorem on the Convergence of Sequences of Functions

Abstract Egoroff’s classical theorem shows that from a pointwise convergence we can get a uniform convergence outside the set of an arbitrary small measure. Taylor’s theorem shows the possibility of controlling the convergence of the sequences of functions on the set of the full measure. Namely, for every sequence of real-valued measurable factions |fn}n∈ℕ pointwise converging to a function f on a measurable set E, there exist a decreasing sequence |δn}n∈ℕ of positive reals converging to 0 and a set A ⊆ E such that E \ A is a nullset and limn→+∞|fn(x)−f(x)|δn=0 for all x∈A. Let J(A, {fn}) {\lim _{n \to + \infty }}\frac{{|{f_n}(x) - f(x)|}}{{{\delta _n}}} = 0\,{\rm{for}}\,{\rm{all}}\,x \in A.\,{\rm{Let}}\,J(A,\,\{ {f_n}\} ) denote the set of all such sequences |δn}n∈ℕ. The main results of the paper concern basic properties of sets of all such sequences for a given set A and a given sequence of functions. A relationship between pointwise convergence, uniform convergence and the Taylor’s type of convergence is considered.

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来源期刊

Tatra Mountains Mathematical Publications Mathematics-Mathematics (all)

CiteScore

1.00

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0.00%

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