\begin{table}%t1 \caption{\label{abundance}LTE atmospheric abundances HD~49933 with error estimates based on the internal scatter from the number of analysed lines, $n$.} %\centerline {\small \begin{tabular}{lcccccc} \hline \hline Ion &\multicolumn{4}{c}{HD~49933 -- this paper}& Bruntt et~al. (2008) & Sun \\ &$\log (N/N_{\rm tot})$ & $n$ &[$N_{\rm el}/N_{\rm H}$]$_{\rm AGS}$ &[$N_{\rm el}/N_{\rm H}$]$_{\rm GS}$ &[$N_{\rm el}/N_{\rm H}$]$_{\rm GS}$ &$\log (N/N_{\rm tot})$ \\ \hline \ion{C}{i}&$-3.74 \pm 0.10$ & 6 & $-$0.09 & $-$0.22 & $-$0.56 & $-$3.65\\ % & -0.17 \ion{O}{i} &$-$3.55&1 &$-$0.17& $-$0.34 & $-$0.53 &$-$3.38\\ \ion{Na}{i} &$-6.15 \pm 0.05$ & 5 & $-$0.28& $-$0.44 &$-$0.36 & $-$5.87\\ \ion{Mg}{i} &$-4.83 \pm 0.07$ & 4 &$-$0.32&$-$0.37 & &$-$4.51\\ \ion{Mg}{ii} &$-$4.73 &1 &$-$0.22&$-$0.27 & &$-$4.51\\ \ion{Al}{i} & $-$6.20: & 2 &$-$0.53&$-$0.63 & & $-$5.67~ \\ \ion{Si}{i} & $-4.86 \pm 0.21$ & 20 & $-$0.33&$-$0.37 & $-$0.37 & $-$4.53\\ \ion{Si}{ii}&$-4.82 \pm 0.02$&6&$-$0.29&$-$0.33 & & $-$4.53~ \\ \ion{S}{i}& $-5.23 \pm 0.07$ & 2 &$-$0.33& $-$0.52 &$-$0.36 & $-$4.90\\ \ion{Ca}{i}&$-6.01\pm0.11$ & 26 &$-$0.28& $-$0.33 &$-$0.50 &$-$5.73\\ \ion{Ca}{ii} &$- 6.01 \pm 0.09$ & 9 &$-$0.28&$-$0.33 & & $-$5.73~ \\ \ion{Sc}{ii} &$- 9.24 \pm 0.12$ & 12 &$-$0.25&$-$0.37 &$-$0.45& $-$8.99 \\ \ion{Ti}{i} &$-7.54 \pm 0.07$ & 19 & $-$0.40&$-$0.52 & $-$0.52 & $-$7.14\\ \ion{Ti}{ii} &$-7.42\pm0.12$ & 33 & $-$0.28&$-$0.40 &$-$0.41 & $-$7.14\\ \ion{V}{i}&$-8.50 \pm 0.13$ &4 & $-$0.46& $-$0.46 & & $-$8.04\\ \ion{V}{ii}&$-8.47 \pm 0.23$ & 5 &$-$0.43& $-$0.43 & & $-$8.04\\ \ion{Cr}{i} & $-6.82 \pm 0.17$ & 25 & $-$0.42&$-$0.45 &$-$0.63 & $-$6.40\\ \ion{Cr}{ii} & $- 6.61 \pm 0.17$ & 16 &$-$0.21& $-$0.24 & $-$0.43 & $-$6.40~ \\ \ion{Mn}{i} & $-7.33 \pm 0.14$ & 14 & $-$0.68& $-$0.68 & &$-$6.65~ \\ \ion{Fe}{i} & $-5.04 \pm 0.06$ &158 & $-$0.45& $-$0.50 &$-$0.44 & $-$4.59\\ \ion{Fe}{ii}&$-5.03 \pm 0.08$ & 31 &$-$0.44&$-$0.49 &$-$0.44 & $-$4.59~ \\ \ion{Co}{i}& $-7.49\pm0.10$ & 3 & $-$0.37& $-$0.37 & & $-$7.12~ \\ % & -0.40 \ion{Ni}{i} &$- 6.34 \pm 0.10$ & 41 &$-$0.53&$-$0.55 &$-$0.48 & $-$5.81 \\ % & -0.57 \ion{Cu}{i} & $-8.65 \pm 0.07$ & 2 & $-$0.82& $-$0.82 & & $-$7.83 \\ % & -0.86 \ion{Zn}{i} & $-$8.12$\pm$0.06 & 2 &$-$0.66& $-$0.66 & &$-$7.44\\ % & -0.70 \ion{Sr}{i} &$-$9.65 & 1 &$-$0.53&$-$0.58 & & $-$9.12 \\ \ion{Sr}{ii} & $-9.50 \pm 0.04$ & 3 & $-$0.38& $-$0.43 & & $-$9.12 \\ % & -0.49 \ion{Y}{ii} & $- 10.34 \pm 0.10$ & 5 & $-$0.51& $-$0.54 & & $-$9.83 \\ % & -0.64 \ion{Zr}{ii} & $- 9.85 \pm 0.06$ & 5 & $-$0.40& $-$0.41 & & $-$9.45 \\ % & -0.45 \ion{Ba}{ii} & $- 10.06 \pm 0.19$ & 5 & $-$0.19& $-$0.15 & & $-$9.87\\ % & -0.26 \ion{La}{ii} &$- 11.21 \pm 0.11$ & 5 & $-$0.30& $-$0.34 & & ~$-$10.91~ \\ % & -0.34 \ion{Ce}{ii} & ~$-10.73 \pm 0.10$ & 5 & $-$0.27& $-$0.27 & & ~$-$10.46~ \\ % & -0.40 \ion{Nd}{ii} & ~$-10.77 \pm 0.28$ & 8 & $-$0.18& $-$0.23 & & ~$-$10.59~ \\ % & -0.11 \ion{Sm}{ii} & ~$-11.09 \pm 0.16$ & 3 & $-$0.06& $-$0.06 & & ~$-$11.03~ \\ % & -0.22 \ion{Eu}{ii} & ~$-11.92 \pm 0.10$ & 2 & $-$0.40& $-$0.39 & & ~$-$11.52~ \\ % & -0.68 \ion{Gd}{ii} & ~$-11.16 \pm 0.09$ & 4 & $-$0.24& $-$0.24 & & ~$-$10.92~ \\ % & -0.18 \ion{Dy}{ii} & ~$-11.36 \pm 0.15$ & 2 & $-$0.46& $-$0.46 & &$-$10.90\\ \hline \Teff &\multicolumn{4}{c}{6500~K} & 6780~K & 5777~K\\ \logg &\multicolumn{4}{c}{4.00~} & 4.24~ & 4.44\\ \hline \end{tabular}} \medskip Fourth and fifth columns give HD~49933 abundances relative to the solar values from \citet{met05}~(AGS) and from \citet{sun_GS} (GS), respectively. The sixth column gives abundances derived by Bruntt et~al. (2008) relative to GS. The last column gives the abundances of the solar atmosphere from \citet{met05}. \end{table}