Theorem: A nonconstant elliptic function has a fundamental pair of periods.

Theorem: If an elliptic function $f$ has no poles in some period parallelogram, then $f$ is a constant function.

Theorem: If an elliptic function $f$ has no zeros in some period parallelogram, then $f$ is a constant function.

Theorem: The contour integral of an elliptic function taken along the boundary of any cell equals zero.

Theorem: The sum of the residues of an elliptic function at its poles in any period parallelogram equals zero.

Theorem: The number of zeros of an elliptic function in and period parallelogram equals the number of poles, counted with multiplicity.