An extension of the Euclid-Euler theorem to certain α-perfect numbers

In a posthumously published work, Euler proved that all even perfect numbers are of the form 2^(p-1)(2^p−1), where 2^p−1 is a prime number. In this article, we extend Euler’s method for certain α-perfect numbers for which Euler’s result can be generalized. In particular, we use Euler’s method to pro...

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Bibliographic Details
Main Author: Almeida, Paulo J. (author)
Other Authors: Cardoso, Gabriel (author)
Format: article
Language:eng
Published: 2022
Subjects:
Euclid-Euler theorem
α-perfect number
Fermat number
Abundancy index
Abundancy outlaw
Online Access:http://hdl.handle.net/10773/35173
Country:Portugal
Oai:oai:ria.ua.pt:10773/35173
Description
Summary:In a posthumously published work, Euler proved that all even perfect numbers are of the form 2^(p-1)(2^p−1), where 2^p−1 is a prime number. In this article, we extend Euler’s method for certain α-perfect numbers for which Euler’s result can be generalized. In particular, we use Euler’s method to prove that if N is a 3-perfect number divisible by 6; then either 2 || N or 3 || N. As well, we prove that if N is a 5/2-perfect number divisible by 5, then 2^4 || N, 5^2 || N, and 31^2| N. Finally, for p ∈ {17, 257, 65537}, we prove that there are no 2p/(p−1)-perfect numbers divisible by p.

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