\begin{table}%t2
\caption{\label{tab:e}Values of  the compressive viscosity parameter $\epsilon$.}
%\centering
\par
\begin{tabular}{c c c c c c}
\hline\hline
$T_0$ (MK) & $\epsilon$ ($2L=50$ Mm) & $\epsilon$  ($2L=100$ Mm) & $\epsilon$ ($2L=200$ Mm) & $\epsilon$  ($2L=300$ Mm) & $\epsilon$ ($2L=400$ Mm)\\[0.5ex]
\hline
1 & 0.883e-3 & 0.442e-3 & 0.221e-3 & 0.147e-3 & 0.110e-3 \\
2 & 0.707e-2 & 0.353e-2 & 0.177e-2 & 0.118e-2 & 0.883e-3 \\
3 & 0.239e-1 & 0.119e-1 & 0.596e-2 & 0.398e-2 & 0.298e-2 \\
4 & 0.565e-1 & 0.283e-1 & 0.141e-1 & 0.942e-2 & 0.707e-2 \\
5 & 0.110\phantom{e-1} & 0.552e-1 & 0.276e-1 & 0.184e-1 & 0.138e-1 \\
6 & 0.191\phantom{e-1} & 0.954e-1 & 0.477e-1 & 0.318e-1 & 0.239e-1 \\
7 & 0.303\phantom{e-1} & 0.152\phantom{e-1} & 0.758e-1 & 0.505e-1 & 0.379e-1 \\
8 & 0.452\phantom{e-1} & 0.226\phantom{e-1} & 0.113\phantom{e-1}  & 0.754e-1 & 0.565e-1 \\
9 & 0.644\phantom{e-1} & 0.322\phantom{e-1} & 0.161\phantom{e-1} & 0.107\phantom{e-1}  & 0.805e-1 \\
10 & 0.883\phantom{e-1} & 0.442\phantom{e-1} & 0.221\phantom{e-1} & 0.147\phantom{e-1} & 0.110\phantom{e-1}   \\
\hline
\end{tabular} 
\tablefoot{Variations in the compressive viscosity parameter $\epsilon$ with changes in temperature $T_0$ for different loop lengths $2L$. Again the loop pressure is $p_0=0.55$ Pa and the other parameters are as in Table \ref{tab:d}. The compressive viscosity is $\nu_0=10^{-17}$ in mks units.}
\end{table}