%------------------------------------------------

\begin{frame}{Results}
    \begin{columns}[c] % The "c" option specifies centered vertical alignment while the "t" option is used for top vertical alignment
       \column{.5\textwidth}

	\tiny
	\input{tables/reg.tex}\footnote{Year/Month fixed effects omited}\footnote{All reported values are logged}\footnote{Single stage preliminary results do not cite}
        \column{.5\textwidth} % Left column and width

\normalsize
\tiny
	\begin{block}{Long Run Effect on Oil Production}
		\begin{equation}
			\Delta Q_{O}= \Delta P_{WTI}\cdot\beta_{2}\left[\sum_{t=1}^{\infty}\left( \beta_{1}^{t}\right)+ 1\right] 
\end{equation}
\end{block}
\normalsize
\center
\(\beta_{1}=0.198\),\(\beta_{2}=0.143\)
\begin{equation*}
	\Delta Q_{O}= 0.18\cdot \Delta P_{WTI}
\end{equation*}



\end{columns}
\end{frame}
\begin{frame}{Intial Estimates}
	Nation wide the average subsidy equavalient is estiamted to be 0.98\%
	\newline
	\textbf{United State}
	\begin{itemize}
		\item{\(\Delta Q_{US}\approx 0.18\%\)}
	\end{itemize}
	Wyoming subsidy equvalent is estiamted to be 2.13\%. Elasticty estimates in Wyoming range from 0.61 to 0.73 .
	\newline
	\textbf{Wyoming}
	\begin{itemize}
		\item{\(\Delta Q_{Wy}\approx 1.43\%\)}
	\end{itemize}
\end{frame}