An accurate prediction of bearing capacity of shallow foundations on granul
ar soils has been historically complicated by effects due to scale of the f
oundation. These effects are due to the nonlinear strength behavior of the
granular soil and the phenomenon of progressive failure. The former can be
conveniently accounted for by strength-dilatancy relationships. It is propo
sed that the effect of progressive failure on ultimate bearing capacity can
be described in terms of the relative dilatancy index inherent in strength
-dilatancy relationships. A design approach to bearing capacity based on th
ese considerations is presented. The approach is calibrated using bearing c
apacity results from studies spanning the past 20 years. The solution is sh
own to work well for the sands examined and is useful in that the proposed
process by which strength parameters are determined reduces, or may elimina
te, the need for laboratory or in situ shear testing, while increasing the
accuracy of the predictions made when compared to conventional methods.