Pages that link to "Item:Q3993308"

The following pages link to Algorithms for diophantine equations (Q3993308):

Displaying 43 items.

• Computing Elliptic Curves over $$\mathbb{Q}$$ : Bad Reduction at One Prime (Q4604874) (← links)
• Computing elliptic curves over $\mathbb {Q}$ (Q4612572) (← links)
• On the nonexistence of $2$-cycles for the $3x+1$ problem (Q4671854) (← links)
• Repdigits as sums of four Fibonacci or Lucas numbers (Q4684599) (← links)
• On Elliptic Diophantine Equations That Defy Thue's Method: The Case of the Ochoa Curve (Q4836629) (← links)
• The Solution of Triangularly Connected Decomposable Form Equations (Q4846022) (← links)
• Primitive Divisors of Lucas and Lehmer Sequences (Q4846026) (← links)
• (Q4855233) (← links)
• Computing all power integral bases in orders of totally real cyclic sextic number fields (Q4878582) (← links)
• (Q5021085) (← links)
• Repdigits base <i>b</i> as products of two Lucas numbers (Q5023633) (← links)
• Differences between perfect powers: The Lebesgue-Nagell equation (Q5047924) (← links)
• Repdigits as sums of two associated Pell numbers (Q5049845) (← links)
• On the Diophantine equations \(F_N=P_M\pm P_{\ell}\) and \(P_n= F_m\pm F_{\ell}\) involving Fibonacci and Pell numbers (Q5057062) (← links)
• (Q5088714) (← links)
• An exponential equation involving k-Fibonacci numbers (Q5097739) (← links)
• Fermat Padovan and Perrin numbers (Q5113815) (← links)
• The polylog quotient and the Goncharov quotient in computational Chabauty–Kim theory II (Q5125047) (← links)
• Can a Lucas number be a sum of three repdigits? (Q5140433) (← links)
• (Q5148232) (← links)
• (Q5148805) (← links)
• On Pillai’s problem with X-coordinates of Pell equations and powers of 2 II (Q5157562) (← links)
• LLL: A Tool for Effective Diophantine Approximation (Q5188542) (← links)
• (Q5213997) (← links)
• (Q5244183) (← links)
• A Remark on Prime Divisors of Lengths of Sides of Heron Triangles (Q5317276) (← links)
• A Graph Theoretic Analysis of Double Base Number Systems (Q5458207) (← links)
• Computing All Elliptic Curves Over an Arbitrary Number Field with Prescribed Primes of Bad Reduction (Q5743080) (← links)
• Repdigits in the base $b$ as sums of four balancing numbers (Q5858510) (← links)
• Repdigits Base $b$ as Difference of Two Fibonacci Numbers (Q5864227) (← links)
• On the exponential Diophantine equation Fnx ± Fmx = a with a ∈{Fr,Lr} (Q5877907) (← links)
• Pell and Pell-Lucas numbers as difference of two repdigits (Q6084747) (← links)
• On concatenations of two Padovan and Perrin numbers (Q6092105) (← links)
• Solving 𝑆-unit, Mordell, Thue, Thue–Mahler and Generalized Ramanujan–Nagell Equations via the Shimura–Taniyama Conjecture (Q6101092) (← links)
• \(k\)-Fibonacci numbers which are Padovan or Perrin numbers (Q6107495) (← links)
• On perfect powers in $k$-generalized Pell sequence (Q6137102) (← links)
• On \(k\)-Fibonacci and \(k\)-Lucas numbers written as a product of two Pell numbers (Q6151701) (← links)
• On perfect powers in \(k\)-generalized Pell-Lucas sequence (Q6154089) (← links)
• On repdigits which are sums or differences of two \(k\)-Pell numbers (Q6180426) (← links)
• Balancing numbers which are concatenations of three repdigits (Q6589497) (← links)
• A robust implementation for solving the \(S\)-unit equation and several applications (Q6603857) (← links)
• Products of Fermat or Mersenne numbers in some sequences (Q6621973) (← links)
• Common values of linear recurrences related to Shank's simplest cubics (Q6633559) (← links)