| Abstract: | If  is a binary cubic form with integer coefficients such that  has at least two distinct complex roots, then the equation  possesses at most ten solutions in integers  and  , nine if  has a nontrivial automorphism group. If, further,  is reducible over ![$\mathbb{Z}x,y]$](http://www.ams.org/tran/2001-353-04/S0002-9947-00-02658-1/gif-abstract0/img8.gif) , then this equation has at most  solutions, unless  is equivalent under  -action to either  or  . The proofs of these results rely upon the method of Thue-Siegel as refined by Evertse, together with lower bounds for linear forms in logarithms of algebraic numbers and techniques from computational Diophantine approximation. Along the way, we completely solve all Thue equations  for  cubic and irreducible of positive discriminant  . As corollaries, we obtain bounds for the number of solutions to more general cubic Thue equations of the form  and to Mordell's equation  , where  and  are nonzero integers. |
