A Method of Solving a Dophantine Equation of Second Degree with N Variables

Abstract

First, we consider the equation ax2 - by2 + c = 0, with a,b ∈ N* and c ∈ Z*, which is a generalization of Pell's equation. Here, we show that: if this equation has an integer solution and ab is not a perfect square, then it has infinitely many integer solutions; in this case we find a closed expression for (xn, yn), the general positive integer solution, by an original method. More, we generalize it for a Diophantine equation of second degree and with n variables of the form: Σi=1n aixi2 = b.

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