\begin{table}%t3
\caption{\label{output}Outflow parameters without inclination angle correction and corrected for an inclination of 20$^{\circ}$ with respect to the plane of the sky.}
%\centerline
{
\small\begin{tabular}{ccccccccc}
\hline
\hline\\[-3mm]
$i$ [$^{\circ}$] & $M_{\rm{t}}$ [$M_{\odot}$] & $p$ [$M_{\odot}$~km~s$^{-1}$] & $E$ [erg] & Size [pc] & $t$ [yr] & $\dot{{M}}_{\rm{out}}$ [$M_{\odot}$/yr] & $F_{\rm{m}}$ [$M_{\odot}$/km/s/yr] & $L_{\rm{m}}$ [$L_{\odot}$] \\
\hline
  &   13 &   150 & $1.7\times10^{46}$ &  0.45 &  37000 & $3.5\times10^{-4}$ & $4.0\times10^{-3}$ &   3.8 \\
%10 &   13 &   880 & 5.7e+47 &  .46  &  6600  & 2.0e-03 & 1.3e-01 &   730 \\ %see pg 129 of notebook for derivations of these based on 10 degree inclination
20 &  13 &   440 & $1.5\times10^{47}$ &  0.48 &  14000 & $9.6\times10^{-4}$ & $3.2\times10^{-2}$ &   89 \\
\hline
\end{tabular}}
\medskip
\par
Entries include inclination $i$, total outflow mass $M_{\rm{t}}$, momentum $p$, energy $E$, size, outflow dynamical age $t$, outflow rate $\dot{M}_{\rm{out}}$, mechanical force $F_{\rm{m}}$ and mechanical luminosity $L_{\rm{m}}$.  Inputs are discussed in the text. 
\end{table}