If $P(x_1$,\,\dots,\,$x_n)$ is a polynomial with integer coefficients,
the Mahler measure $M(P)$ of $P$ is defined to be the geometric mean
of $|P|$ over the $n$-torus $\T ^n$. For $n = 1$, $M(P)$ is an
algebraic integer, but for
$n$\raise.5pt\hbox{\footnotesize\mathversion{bold}${}>{}$}$1$, there
is reason to believe that $M(P)$ is usually transcendental. For
example, Smyth showed that $\log
M(1+x+y)=L'(${\mathversion{normal}$\chi$}$_{-3}$,$\,{-}1)$, where
{\mathversion{normal}$\chi$}$_{-3}$ is the odd Dirichlet character of
conductor $3$. Here we will describe some examples for which it
appears that $\log M(P(x$,$\,y)) = r@@L'(E$,$\,0)$, where $E$ is an
elliptic curve and $r$ is a rational number, often either an integer
or the reciprocal of an integer. Most of the formulas we discover
have been verified numerically to high accuracy but not rigorously
proved.