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Is there any general theory to find the numbers represented by ternary forms of the type $q(x,y,z)=ax^2+bx^2-abz^2,$ when $a,b$ are prime? By doing an internet search, the closest I found was the …

Related question: Totally real number fields with bounded regulators Given a number field $K$ with degree $n$ and determinant $D$, what is the "best" upper bound for its regulator $R$, if any? I know …

This question is related to this and this ones. The Gauss Circle problem asks for the number $N(r)$ of integer points within a sphere of radius $r$ centered at the origin. It is well known that $N(r) …

Equality (2) can be proved through the Smith Normal Form of $A$. I am pretty sure there is a simpler proof then the one below. One can decompose $A$ into: $A = U D V^t$ where $D = ( \hat{D}\,\, \left …

First of all, I am no number theorist, so this question may be a little dummy. The two squares theorem imply that $m = x^2 + y^2$ for some (possible zero) integer numbers $x,y$ iff $m$ factors as $m = …

The two-dimensional version of this question was already asked (although in a different language) here. In fact, besides the generalization to measurable sets mentioned by Pete, this result can be ge …