The in-plane ($rho_{ab}$) and c-axis ($rho_c$) resistivities, and the magnetoresistivity of single crystals $Na_xCoO_2$ with x = 0.7, 0.5 and 0.3 were studied systematically. $rho_{ab}(T)$ shows similar temperature dependence between $Na_{0.3}CoO_2$ and $Na_{0.7}CoO_2$, while $rho_c(T)$ is quite different. A dimensional crossover from two to three occurs with decreasing Na concentration from 0.7 to 0.3. The angular dependence of in-plane magnetoresistivity for 0.5 sample shows a emph{d-wave-like} symmetry at 2K, while the emph{p-wave-like} symmetry at 20 K. These results give an evidence for existence of a emph{spin ordering orientation} below 20 K turned by external field, like the stripes in cuprates.