Several measures of galaxy size and mass obtained from the neutral hydrogen
mapping of 70 dwarf irregular galaxies presented in Paper I (Hoffman et al.
1996) are compared statistically to those for the set of all available
HI-mapped dwarfs and HI-mapped spirals distributed within the same spatial
volume to investigate variations in Tully-Fisher relations and in surface
densities as functions of galaxy size and luminosity or mass. Some ambiguities
due to the ``non-commutativity'' of the correlations among the variables are
addressed and linear regressions of logarithms of blue luminosity, HI and
optical radii, velocity profile half-width incorporating rotation and random
motions, HI mass, and indicative dynamical mass are presented and analyzed. The
surface density of HI is almost constant along the sequence of
size/mass/luminosity while surface density of blue luminosity increases with
galaxy size. For quantities not involving HI we find no evidence for a
``break'' between dwarfs and spirals, but we do find some curvature in velocity
vs. radius and in the Tully-Fisher relation. There is an indication for a
difference in the correlations involving HI mass or radius between dwarfs alone
and spirals alone, in the sense that irregulars have somewhat more HI mass or
slightly larger HI radii than spirals at a given blue luminosity, optical
radius, or velocity profile width.Comment: AASTeX, to appear in ApJ, 26 pages + 3 tables + 12 figure