scholarly journals Hyperreal Numbers for Infinite Divergent Series

2019 ◽  
Author(s):  
Jonathan Bartlett ◽  
Logan Gaastra ◽  
David Nemati
Keyword(s):  
Divergent Series ◽  
Hyperreal Numbers

scholarly journals Hyperreal Numbers for Infinite Divergent Series

2020 ◽  
Vol 2 (1) ◽  
pp. 7-15
Author(s):  
Jonathan Bartlett ◽  
Logan Gaastra ◽  
David Nemati
Keyword(s):  
Real Number ◽  
Number System ◽  
Divergent Series ◽  
The Real ◽  
Hyperreal Numbers ◽  
Real Number System

Treating divergent series properly has been an ongoing issue in mathematics. However, many of the problems in divergent series stem from the fact that divergent series were discovered prior to having a number system which could handle them. The infinities that resulted from divergent series led to contradictions within the real number system, but these contradictions are largely alleviated with the hyperreal number system. Hyperreal numbers provide a framework for dealing with divergent series in a more comprehensive and tractable way.

On the Summation of Divergent Series

1865 ◽  
Vol 12 (5) ◽  
pp. 245-252
Author(s):  
A. De Morgan
Keyword(s):  
Divergent Series ◽  
Summation Of Divergent Series

In the last Number I gave the most elementary view I could arrive at of Arbogast's method of development. In the communication following I saw that Mr. Peter Gray had referred to Stirling's theorem; and this suggested that it might be useful to give, by means of common algebra only, an account of the two most important cases of summation of many terms of a divergent series.

Making the hyperreal line both saturated and complete

1991 ◽  
Vol 56 (3) ◽  
pp. 1016-1025 ◽  
Author(s):  
H. Jerome Keisler ◽  
James H. Schmerl
Keyword(s):  
Set Theory ◽  
Nonempty Intersection ◽  
Finite Intersection ◽  
Second Order Arithmetic ◽  
Ordered Field ◽  
Finite Intersection Property ◽  
Regular Cardinals ◽  
Hyperreal Numbers ◽  
Order Arithmetic ◽  
Internal Sets

AbstractIn a nonstandard universe, the κ-saturation property states that any family of fewer than κ internal sets with the finite intersection property has a nonempty intersection. An ordered field F is said to have the λ-Bolzano-Weierstrass property iff F has cofinality λ and every bounded λ-sequence in F has a convergent λ-subsequence. We show that if κ < λ are uncountable regular cardinals and βα < λ whenever α < κ and β < λ then there is a κ-saturated nonstandard universe in which the hyperreal numbers have the λ-Bolzano-Weierstrass property. The result also applies to certain fragments of set theory and second order arithmetic.

scholarly journals Discrete sampling theorem to Shannon’s sampling theorem using the hyperreal numbers R

2021 ◽  
Vol 28 (2) ◽  
pp. 163-182
Author(s):  
José L. Simancas-García ◽  
Kemel George-González
Keyword(s):  
Computational Cost ◽  
Number System ◽  
Sampling Theorem ◽  
Discrete Sampling ◽  
Sampled Signal ◽  
Speed Up ◽  
Shannon’S Sampling Theorem ◽  
The Difference ◽  
Band Limited ◽  
Hyperreal Numbers

Shannon’s sampling theorem is one of the most important results of modern signal theory. It describes the reconstruction of any band-limited signal from a finite number of its samples. On the other hand, although less well known, there is the discrete sampling theorem, proved by Cooley while he was working on the development of an algorithm to speed up the calculations of the discrete Fourier transform. Cooley showed that a sampled signal can be resampled by selecting a smaller number of samples, which reduces computational cost. Then it is possible to reconstruct the original sampled signal using a reverse process. In principle, the two theorems are not related. However, in this paper we will show that in the context of Non Standard Mathematical Analysis (NSA) and Hyperreal Numerical System R, the two theorems are equivalent. The difference between them becomes a matter of scale. With the scale changes that the hyperreal number system allows, the discrete variables and functions become continuous, and Shannon’s sampling theorem emerges from the discrete sampling theorem.

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