The following pages link to On the Lebesgue–Nagell equation (Q3112372):
Displaying 11 items.
- On the exponential Diophantine equation \(x^2 + 2^a p^b = y^n\) (Q276448) (← links)
- On some generalized Lebesgue-Nagell equations (Q626833) (← links)
- On a class of Lebesgue-Ljunggren-Nagell type equations (Q784274) (← links)
- Variations on the Brocard-Ramanujan equation (Q1938558) (← links)
- Sur quelques équations diophantiennes du type \(cZ^N = F_1(X,Y) + F_2(U,V)\) (Q2545706) (← links)
- On the Diophantine equation \(x^2 + C = y^n\), for \(C = 2^a3^b17^c\) and \(C = 2^a13^b17^c\) (Q2826346) (← links)
- A computational approach for solving $y^2=1^k+2^k+\dotsb+x^k$ (Q4417184) (← links)
- Complete solution of the Diophantine Equation $x^{2}+5^{a}\cdot 11^{b}=y^{n}$ (Q4972037) (← links)
- On the diophantine equation x2+5a·pb=yn (Q5019629) (← links)
- Complete solutions of a Lebesgue-Ramanujan-Nagell type equation. (Q6584379) (← links)
- On the exponential Diophantine equation \(x^2+p^m q^n=2y^p\) (Q6597291) (← links)
