The mass distribution and perihelion distribution of long-period comets are
re-assessed. The mass distribution index is found to be 1.598 +/-0.016, in
dicating that the distribution is somewhat steeper than was obtained by pre
vious analyses of an amalgam of all the available historical data. The numb
er of long-period comets that have orbital perihelion distances, q, that fa
ll in a specific q to q + dq range is found to be independent of q. It is a
lso noted that the flux of long-period comets to the inner Solar system has
remained constant throughout recorded history.
The number of long-period comets, Ar, per I-au interval of perihelion dista
nce, per year, brighter than H, entering the inner Solar system is found to
be given by log(10)N = -2.607 + 0.359H. It is therefore estimated that, fo
r example, about 0.5, 30 and 2000 long-period comets with absolute magnitud
es brighter than 0, 5 and 10 respectively pass the Sun on orbits with perih
elion distances less than 2.0 au, every century.