\begin{table}%t3 \caption {\label{barsize}Bar sizes. The bar size derivation is described in Sect.~\ref{morphology}.} %\centerline {\begin{tabular}{l l l } % 14columns \hline \hline Galaxy name & Bar size (arcsec) & Bar size (arcsec) \\ & (other studies) & (our study) \\ \hline NGC~1169 & -- & 29 \\ NGC~1358$^{d}$ & 25 & -- \\ NGC~1433$^{b, i}$& 90, 66 & -- \\ NGC~1530$^{e}$ & 50 & 69 \\ NGC~1832$^{f}$& 17 & -- \\ NGC~2217$^{b; f; i}$ &50, 37, 43 & -- \\ NGC~2273 $^{a}$& 14 & 21 \\ NGC~2523 & -- & -- \\ NGC~2665 & -- & -- \\ NGC~2681$^{1; a; c; g}$& 50, 25, 29 & 23 \\ NGC~2859$^{b; c}$ &34, 46 & 48 \\ NGC~2935$^{f; i}$&25, 39 &-- \\ NGC~2950 $^{a; g}$& 24, 38 & 44 \\ NGC~2962 $^{a}$& 29 & 45 \\ NGC~3081$^{b; g; c}$ &35, 41, 38 & 35 \\ NGC~4245$^{a}$ & 37& 59 \\ NGC~4314 $^{a, g}$& 67, 75 & 92 \\ NGC~4394$^{h;i}$ & 52, 35 & 56\\ NGC~4643$^{a}$ & 50 & 67 \\ NGC~5101$^{f}$& 50 & -- \\ \hline \end{tabular}} \par \smallskip { (1) NGC~2681 is a triple barred system. Erwin (\cite{Erwin05}) gives the value of the primary bar, while we give here the value of the secondary bar.\\ $^{a}$~Erwin (\cite{Erwin05}) bar size given as the radius of maximum ellipticity in the bar region; $^{b}$~Erwin (\cite{Erwin04}) bar size given at the radius of maximum ellipticity in the bar region; $^{c}$~Wozniak (\cite{Wozniak95}); they give the projected bar size at the radius of minimum ellipticity; $^{d}$~Mulchaey (\cite{Mulchaey97}); they give the bar size as the radius at the minimum of ellipticity; $^{e}$~Regan (\cite{Regan96}); $^{f}$~Jungwiert (\cite{Jungwiert97}), bar size given as the radius of maximum ellipticity in the bar region; $^{g}$~Friedli et~al. (\cite{Friedli96}); they give the projected bar size as the radius at the ellipticity minimum; $^{h}$~Gadotti \& de Souza (\cite{Gadotti06}), bar size given as the radius of maximum ellipticity in the bar region; $^{i}$ Martin \& Roy (\cite{Martin95}), bar size given by visual inspection of photographic plates. } \end{table}