\begin{table}%t6
\caption{\label{toutfpar}Physical parameters of the outflow driven by MM1.}
%\footnotesize
%\centerline
{\begin{tabular}{lccccccccc}
%\noalign{\smallskip}
\hline\hline\noalign{\smallskip}
&$t_{\rm dyn}$
&size
&$N$~\tablefootmark{a}
&$M_{\rm out}$~\tablefootmark{a}
&$\dot{M}$~\tablefootmark{a}
&$P$~\tablefootmark{a}
&$\dot{P}$~\tablefootmark{a}
&$E_{\rm kin}$~\tablefootmark{a}
&$L_{\rm mech}$~\tablefootmark{a}
\\
Lobe
&(yr)
&(arcsec)
&(cm$^{-2}$)
&(\mo)
&(\mo~yr$^{-1}$)
&(\mo~\kms)
&(\mo~\kms~yr$^{-1}$)
&(erg)
&(\lo)
\\
\noalign{\smallskip}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% CORRECTED FROM OPACITY (tau = 2 --> tau/(1-e^(-tau)) = 2.3)
\hline\noalign{\smallskip}
Red	&\phn3600	&$12\times9$	&$3.1\times10^{16}$	&\phn0.05	&$1.5\times10^{-5}$	&\phn1.2	&\phn$3.3\times10^{-4}$	&\phn$2.6\times10^{44}$	&0.46	\\
Blue	&\phn3300	&$14\times7$	&$2.9\times10^{16}$	&\phn0.05	&$1.4\times10^{-5}$	&\phn1.4	&\phn$4.2\times10^{-4}$	&\phn$4.2\times10^{44}$	&0.85	\\
%\hline\noalign{\smallskip}
All	&\phn3500	&$26\times9$	&$6.0\times10^{16}$	&\phn0.10	&$2.9\times10^{-5}$	&\phn2.6	&\phn$7.5\times10^{-4}$	&\phn$6.7\times10^{44}$	&1.31	\\
\hline
\end{tabular}}
\par
\tablefoot{\tablefoottext{a}{Parameters are calculated for an inclination with
  respect to the plane of the sky equal to 0\degr, and are
  corrected for opacity effects. $N$ refers to CO column density.}}
\end{table}