Pages that link to "Item:Q1347771"

The following pages link to On Cohn's conjecture concerning the Diophantine equation \(x^2+2^m=y^n\) (Q1347771):

Displaying 32 items.

• On the exponential Diophantine equation \(x^2 + 2^a p^b = y^n\) (Q276448) (← links)
• On the Diophantine equation \(nx^2+2^{2m}=y^n\) (Q538172) (← links)
• On the Diophantine equation \(x^2= y^p+2^kz^p\) (Q558171) (← links)
• On the Diophantine equation \(x^2+5^a\cdot 11^b=y^n\) (Q617797) (← links)
• On some generalized Lebesgue-Nagell equations (Q626833) (← links)
• On the Diophantine equation \(x^2 + 2^a \cdot 19^b = y^n\) (Q691675) (← links)
• Integer points and independent points on the elliptic curve \(y^2=x^3-p^kx\) (Q764002) (← links)
• On the diophantine equation \(x^ 2+2^ k=y^ n\) (Q1363345) (← links)
• On \(p^x-q^y=c\) and related three term exponential Diophantine equations with prime bases. (Q1429806) (← links)
• The Diophantine equation \(x^2+2^k=y^n\). II (Q1587799) (← links)
• On the Diophantine equation \(X^{2N}+2^{2\alpha}5^{2\beta}p^{2\gamma}=Z^5\) (Q1705220) (← links)
• On the solutions of certain Lebesgue-Ramanujan-Nagell equations (Q1981382) (← links)
• On the generalized Ramanujan-Nagell equation \(x^2 + b^m = c^n\) with \(a^2 + b^r = c^2\) (Q2092318) (← links)
• On the exponential Diophantine equation \((m^2+m+1)^x+m^y=(m+1)^z\) (Q2211718) (← links)
• A note on the equation \(x^y + y^z = z^x\) (Q2405622) (← links)
• On the Diophantine equation \(x^2 + C = y^n\), for \(C = 2^a3^b17^c\) and \(C = 2^a13^b17^c\) (Q2826346) (← links)
• On the Diophantine equation \(x^2+d^{2l+1}=y^n\) (Q2882504) (← links)
• (Q3118257) (← links)
• THE DIOPHANTINE EQUATION (2am - 1)^x + (2m)^y = (2am + 1)^z (Q3165315) (← links)
• (Q3179988) (← links)
• On Lebesgue–Ramanujan–Nagell Type Equations (Q3298293) (← links)
• ON THE DIOPHANTINE EQUATION x² + 2^a · 5^b = yⁿ (Q3636080) (← links)
• Note on J. H. E. Cohn's paper ``The Diophantine equation xⁿ=Dy²+1" (Q4811242) (← links)
• The diophantine equation x 2 + 2 a · 17 b = y n (Q4898750) (← links)
• (Q4920910) (← links)
• AN APPLICATION OF THE MODULAR METHOD AND THE SYMPLECTIC ARGUMENT TO A LEBESGUE–NAGELL EQUATION (Q5112817) (← links)
• On the Diophantine Equation x 2 + 2 α 5 β 13 γ  = y n (Q5387615) (← links)
• ON THE DIOPHANTINE EQUATION <i>x</i>² + 5^<i>a</i> 13^<i>b</i> = <i>y</i>^<i>n</i> (Q5444677) (← links)
• A NOTE ON THE NUMBER OF SOLUTIONS OF TERNARY PURELY EXPONENTIAL DIOPHANTINE EQUATIONS (Q5879212) (← links)
• A generalization of a theorem of Cohn on the equation \(x^3-Ny^2=\pm 1\) (Q5948863) (← links)
• ON A CONJECTURE CONCERNING THE NUMBER OF SOLUTIONS TO (Q6093243) (← links)
• A note on the ternary purely exponential Diophantine equation \(f^x + (f + g)^y = g^z\) (Q6144550) (← links)