关于丢番图方程(p+n)^x+p^y=z^2其中p和p+n是素数

IF 1 Q1 MATHEMATICS

European Journal of Pure and Applied Mathematics Pub Date : 2023-10-30 DOI:10.29020/nybg.ejpam.v16i4.4822

Wachirarak Orosram

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引用次数: 1

摘要

本文研究了Diophantine方程(p+n)^x+p^y=z^2，其中p、p+n为素数，且n为正整数，使得n对4等价。在p=3和n=4的情况下，Rao{7}证明了非负整数解为(x,y,z)=(0,1,2)和(1,2,4);在p>3和pequiv 3pmod4的情况下，如果n-1是素数，2n-1不是素数，则非负整数解(x,y,z)为(0,1，\sqrt{p+ 1})或(1,0，\sqrt {p+n+1})。在pequiv 1pmod4的情况下，非负整数解(x,y,z)也是(0,1，\sqrt {p+1})或(1,0，\sqrt{p+n+1})。

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On the Diophantine Equation (p+n)^x+p^y=z^2 where p and p+n are Prime Numbers

In this paper, we study the Diophantine equation (p+n)^x+p^y=z^2, where p, p+n are prime numbers and n is a positive integer such that n equiv mod 4. In case p=3 and n=4, Rao{7} showed that the non-negative integer solutions are (x,y,z)=(0,1,2) and (1,2,4) In case p>3 and pequiv 3pmod4, if n-1 is a prime number and 2n-1 is not prime number, then the non-negative integer solution (x, y, z) is (0, 1,\sqrt {p+1}) or ( 1, 0, \sqrt{p+n+1}). In case pequiv 1pmod4, the non-negative integer solution (x,y,z) is also (0, 1,\sqrt {p+1}) or ( 1,0, \sqrt{p+n+1}).

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来源期刊

European Journal of Pure and Applied Mathematics MATHEMATICS-

CiteScore

1.30

自引率

28.60%

发文量

156