İki Lucas Sayısının Birleşimi Olan Mulatu Sayıları

Afyon Kocatepe University Journal of Sciences and Engineering Pub Date : 2023-08-29 DOI:10.35414/akufemubid.1240679
Fatih Erduvan
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Abstract

In this paper, we find that all Mulatu numbers, which are concatenations of two Lucas numbers are 11,17,73,118. Let 〖(M_k)〗_(k≥0) and 〖(L_k)〗_(k≥0) be the Mulatu and Lucas sequences. That is, we solve the Diophantine equation M_k=L_m L_n=10^d L_m+L_n in non-negative integers (k,m,n,d), where d denotes the number of digits of L_n. Solutions of this equation are denoted by (k,m,n,d)=(4,1,1,1),(5,1,4,1),(8,4,2,1),(9,1,6,2). In other words, we have the solutions M_4=L_1 L_1=11, M_5=L_1 L_4=17, M_8=L_4 L_2=73, M_9=L_1 L_6=118. The proof based on Baker’s theory and we used linear forms in logarithms and reduction method to solve of this Diophantine equation.
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在本文中,我们发现所有的Mulatu数都是11,17,73,118,它们是两个Lucas数的连接。设〖(M_k)〗_(k≥0)和〖(L_k)〗_(k≥0)分别为Mulatu序列和Lucas序列。即求解非负整数(k,m,n,d)中的丢色图方程M_k=L_m L_n=10^d L_m+L_n,其中d表示L_n的位数。解这个方程是用(k、m、n、d) =(4, 1, 1, 1),(5、1 4 1),(8、4、2、1),(9,1 6 2)。换句话说,我们有M_4=L_1 L_1=11, M_5=L_1 L_4=17, M_8=L_4 L_2=73, M_9=L_1 L_6=118。在贝克理论的基础上,利用对数的线性形式和约简法对丢番图方程进行了证明。
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Afyon Kocatepe University Journal of Sciences and Engineering
Afyon Kocatepe University Journal of Sciences and Engineering
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