\begin{table}%t6 \caption{\label{average}Average properties of the \textit{INTEGRAL} AGN. In parentheses, the number of objects used for the given average value is indicated.} \small%\centerline { \begin{tabular}{lccc} \hline\hline & Seyfert 1 & Seyfert 1.5 & Seyfert 2 \\ \hline $\langle z \rangle$ & 0.03 (63) & 0.014 (24) & 0.02 (57) \\ $\langle \Gamma \rangle^a$ & 1.92 $\pm$ 0.02 & 2.02 $\pm$ 0.03 & 1.88 $\pm$ 0.02 \\ & (55) & (20) & (44)\\ $\langle \log ~ N_{\rm H} \rangle^b$ & 21.2 (61) & 21.7 (23) & 22.9 (51) \\ $\langle \log ~ L_{\rm 20-100~keV}\rangle^c$ & 44.0 (63) & 43.3 (24) & 43.4 (57) \\ $\langle \log ~ M_{\rm BH}\rangle$ & 7.8 (30) & 7.2 (14) & 7.7 (27) \\ $\langle \lambda \rangle^d$ & 0.064 (30) & 0.015 (14) & 0.02 (27) \\ \hline & Unabs & Absorbed & all Sey \\ \hline $\langle z \rangle$ & 0.03 (74) & 0.014 (60) & 0.02 (144) \\ $\langle \Gamma \rangle^a$ & 1.94 $\pm$ 0.02 & 1.91 $\pm$ 0.02 & 1.93 $\pm$ 0.01 \\ & (66) & (44) & (119)\\ $\langle \log ~ N_{\rm H} \rangle^b$ & 21.0 (75) & 23.1 (60) & 21.9 (135) \\ $\langle \log ~ L_{\rm 20-100~keV} \rangle^c$ & 43.8 (74) & 43.4 (60) & 43.6 (144) \\ $\langle \log ~ M_{\rm BH}\rangle$ & 7.6 (37) & 7.7 (34) & 7.6 (71) \\ $\langle \lambda \rangle^d$ & 0.06 (37) & 0.015 (34) & 0.03 (71) \\ \hline \end{tabular}} \medskip $^a$ $\Gamma$ is the average photon index derived from the weighted mean on the power law model fits to the single IBIS/ISGRI spectra; $^b$~absorption is given in $[\rm cm^{-2}]$; $^c$~luminosities in $[\rm erg~s^{-1}]$; $^d$~$\lambda = L_{\rm Bol} / L_{\rm Edd}$ is the Eddington ratio. \end{table}