A note on the Diophantine equation $2^{n-1}(2^{n}-1)=x^3+y^3+z^3$

Maciej Ulas

arxiv: 1705.01074 · v1 · pith:QD6MOKBPnew · submitted 2017-05-02 · 🧮 math.NT

A note on the Diophantine equation 2^(n-1)(2^(n)-1)=x³+y³+z³

Maciej Ulas This is my paper

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keywords equationdiophantineintegerssomecomputationalconcerningconjecturesconsequence

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Motivated by the recent result of Farhi we show that for each $n\equiv \pm 1\pmod{6}$ the title Diophantine equation has at least two solutions in integers. As a consequence, we get that each (even) perfect number is a sum of three cubes of integers. Moreover, we present some computational results concerning the considered equation and state some questions and conjectures.

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A note on the Diophantine equation 2^(n-1)(2^(n)-1)=x³+y³+z³

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