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Apr
20 |
awarded | Yearling |
Apr
20 |
awarded | Nice Question |
Apr
20 |
accepted | Congruence for the number of points in the elliptic curve $y^2 = x^3+b \pmod{p}$ |
Apr
19 |
asked | Congruence for the number of points in the elliptic curve $y^2 = x^3+b \pmod{p}$ |
Feb
7 |
comment |
Number field of degree 5
This article mentions families of simple fields for cubic, quartic, cubic and sextic fields. |
Oct
2 |
awarded | Caucus |
Jun
25 |
awarded | Revival |
Feb
27 |
awarded | Nice Answer |
Oct
4 |
answered | Fiction books about mathematicians? |
Jul
31 |
revised |
A prime number pattern
deleted 23 characters in body |
Jul
31 |
answered | A prime number pattern |
Nov
9 |
awarded | Yearling |
Mar
5 |
answered | Looking up the Mordell-Weil rank and generator(s) of a Weierstrass Equation |
Mar
1 |
comment |
What does the adjective “natural” actually mean?
Google has an amazing tool to chart word and sentence usage through time. Sadly enough you can't select the subject. |
Feb
18 |
awarded | Critic |
Feb
17 |
awarded | Scholar |
Feb
17 |
revised |
Greatest common divisor of algebraic integers
Substituted $H$ (wrong) with ${\mathcal O}_H$ |
Feb
17 |
accepted | Greatest common divisor of algebraic integers |
Feb
17 |
comment |
Greatest common divisor of algebraic integers
Thank both, my only problem with Hecke's theorem was that he states it for $K$ and not for $L$. I see now that it follows for $L$ very easily with the same argument. I'm acepting Pete's proof as it is esentially identical. |
Feb
17 |
awarded | Nice Question |