This paper describes measurements of the macroscopic thermodynamic pro
perties of swollen networks (osmotic swelling pressure, elastic modulu
s) in relation to the equivalent uncross-linked solutions. The presenc
e of cross-links in a gel introduces a second characteristic distance
scale, which is visible in small angle neutron and X-ray scattering (S
ANS and SAXS), in addition to that of the thermal fluctuations. The tw
o length scales vary differently as the degree of swelling of the gel
is modified: the correlation length of the osmotic fluctuations increa
ses as the gel swells, while that of the elastic constraints is practi
cally independent of swelling. Several observations are also described
on gels containing free polymer chains of the same chemical nature as
the network. These measurements show that the free chains in the gel
have thermodynamic and scattering properties that closely resemble tho
se of the network. Isotopic labelling of the free chains distinguishes
them from the surrounding network and allows their individual propert
ies to be examined. It is found that their radius of gyration shrinks,
owing to their interaction with the cross-links in the network. Copyr
ight (C) 1996 Published by Elsevier Science Ltd.