The current technique of measuring the change in surface stress at the soli
d-vacuum and solid-liquid interface is typically based on the bending of a
thin crystalline plate. The crucial issue is to convert the measured data s
uch as curvature or deflection into the change in surface stress with the h
elp of elasticity theory. In this paper, explicit relations are derived bet
ween the change in surface stress and the curvature of an unconstrained pla
te with arbitrary crystallographic symmetry. The result is exact in the sen
se that it satisfies all the relevant equations in elasticity, except the b
oundary conditions on the lateral edge are fulfilled on average. In additio
n, it is also shown that some existing results for surface stress induced b
ending of free isotropic and cubic plates are actually exact, although some
kinetic assumptions are adopted in their derivation. (C) 2001 Elsevier Sci
ence B.V. All rights reserved.