Corner nodes have displacements $[u,v,w].$ Midside nodes have 5 degrees of freedom $[u,v,w,\alpha,\beta],$ where $\alpha$ and $\beta$ are the angles of rotation of the edge. All nodes have temperatures $[T,\Delta T],$ where $\Delta T$ is the temperature difference between the bottom and top sides.

An edge has three nodes with global numbers N1, N2 and N3. In the figure, N1 < N3 is assumed. The angles of rotation $\alpha$ and $\beta$ are moved to the midside node, but they are actually calculated in the loof points $L_1,L_2.$ The angles $\alpha,\beta$ are positive for clockwise rotation about the axis $y_h$ in the points $L_1,L_2.$

An edge is oriented positively by the axis $y_h.$

The axis $x_h$ is such that the resulting coortinate system is right-handed and, generally, does not point outward from the element.

The axis $y_h$ coincides with the edge in the direction from N1 to N3, therefore, its orientation depends on the particular mesh numbering.

The axis $z_h$ coincides with the local surface normal $\zeta.$

The element has one (center-line) surface. This surface is oriented positively by the normal $\zeta,$ which is directed from the bottom side to the top side.

For heat transfer problems, there are two more surfaces defined, coinciding with the bottom side (face 2) and the top side (face 1).