We have performed neutron diffraction experiments as well as neutron time-of-flight (TOF) and low-temperature specific heat (C p ) measurements, on both hydrogenated and deuterated ethanol as functions of temperature. Ethanol appears to be unique in its ability to form a rotator-phase crystal and an orientational glass in the same temperature range where the amorphous phase can be produced. We find that these two orientationally disordered crystal phases have structures and dynamics which are very similar to those of the amorphous phase at the same temperature. These are therefore glassy systems which, due to the presence of an underlying lattice and a stoichiometry identical to the amorphous phase, are ideal for quantitative study.