This paper presents the study of behaviour of the phase velocity and the attenuation distance of waves propagating arbitrarily in a homogeneous, driftless, warm electron magnetoplasma. Some illustrative graphs showing the variation of the phase velocity and the attenuation distance with respect to normalized source frequency for various values of normalized collision frequency are developed analytically to study the dispersion relation for plasma wave. For getting simplified expression, the phase velocity and the attenuation distance are expanded in a power series in terms of normalized collision frequency and inverse of normalized collision frequency by Taylor's series theorem for the respective low-loss and high-loss cases of warm plasma. The approximate values of the phase velocity and the attenuation distance are also obtained in some regions of the frequency spectrum.