Classifying Functions via growth rates of repeated iterations

arXiv - MATH - Classical Analysis and ODEs Pub Date : 2024-09-10 DOI:arxiv-2409.06661
Titus Hilberdink
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引用次数: 0

Abstract

In this paper we develop a classification of real functions based on growth rates of repeated iteration. We show how functions are naturally distinguishable when considering inverses of repeated iterations. For example, $n+2\to 2n\to 2^n\to 2^{\cdot^{\cdot^2}}$ ($n$-times) etc. and their inverse functions $x-2, x/2, \log x/\log 2,$ etc. Based on this idea and some regularity conditions we define classes of functions, with $x+2$, $2x$, $2^x$ in the first three classes. We prove various properties of these classes which reveal their nature, including a `uniqueness' property. We exhibit examples of functions lying between consecutive classes and indicate how this implies these gaps are very `large'. Indeed, we suspect the existence of a continuum of such classes.
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通过重复迭代的增长率对函数进行分类
在本文中,我们根据重复迭代的增长率对实函数进行了分类。我们展示了在考虑重复迭代的倒数时,函数是如何自然区分的。例如,$n+2\to 2n\to 2^n\to 2^{\cdot^{cdot^2}}$ ($n$-times)等及其反函数$x-2, x/2, \log x/\log 2, $等。基于这一思想和一些规律性条件,我们定义了函数类,其中前三类分别为 $x+2$、$2x$、$2^x$。我们证明了这些类的各种性质,包括 "唯一性 "性质,从而揭示了它们的性质。我们举例说明了位于连续类之间的函数,并指出这意味着这些间隙非常 "大"。事实上,我们怀疑存在着这样一个连续的类。
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arXiv - MATH - Classical Analysis and ODEs
arXiv - MATH - Classical Analysis and ODEs
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