Curve is: [1,-1,0,4,3] (reduced minimal model) b2 = -3 b4 = 8 b6 = 12 b8 = -25 c4 = -183 c6 = -3429 disc = -10351 (bad primes: [ 11 941 ]; # real components = 1) #torsion not yet computed Conductor = 10351 Global Root Number = -1 Reduction type at bad primes: p ord(d) ord(N) ord(j) Kodaira c_p root_number 11 1 1 1 I1 1 1 941 1 1 1 I1 1 1 Enter a twist value: (0 to set a new `original' curve, 1 to twist original, or any other integer to twist immediately preceding output) E * 10 is: [0,0,0,6100,254000] (reduced minimal model) b2 = 0 b4 = 12200 b6 = 1016000 b8 = -37210000 c4 = -292800 c6 = -219456000 disc = -42397696000000 (bad primes: [ 2 5 11 941 ]; # real components = 1) #torsion not yet computed Conductor = 16561600 Global Root Number = -1 Reduction type at bad primes: p ord(d) ord(N) ord(j) Kodaira c_p root_number 2 18 6 0 I*8 4 1 5 6 2 0 I*0 1 1 11 1 1 1 I1 1 -1 941 1 1 1 I1 1 -1 Enter a twist value: (0 to set a new `original' curve, 1 to twist original, or any other integer to twist immediately preceding output) E * 10 is: [1,-1,0,4,3] (reduced minimal model) b2 = -3 b4 = 8 b6 = 12 b8 = -25 c4 = -183 c6 = -3429 disc = -10351 (bad primes: [ 11 941 ]; # real components = 1) #torsion not yet computed Conductor = 10351 Global Root Number = -1 Reduction type at bad primes: p ord(d) ord(N) ord(j) Kodaira c_p root_number 11 1 1 1 I1 1 1 941 1 1 1 I1 1 1 Enter a twist value: (0 to set a new `original' curve, 1 to twist original, or any other integer to twist immediately preceding output)