[en] In an analysis of high energy particle channeling data, the <110> axial and (111) planar channeling distribution widths were found to scale as 1/√ E (Lindhard Theory) for 35, 100, and 250 GeV/c beam particles incident on a 2 cm thick hyperpure Germanium single crystal. The width of the blocking dip around the <110> axis direction also scaled as 1/√ E (Lindhard Theory). The negative particles behaved quite differently from the positive particles. The 35 GeV/c negative particles showed a broad dip (approx. 3 psi₁) around the <110> axis position for low energy loss particles. The particles going along the <110> axis direction exhibited higher than average energy loss. There was statistical equilibrium in the azimuthal component of the transverse motion for zero to 2 psi₁ incident angles. The negative particles showed greater radial scattering for particles incident at small angles to the <110> axis direction compared to positive particles