W.F. Thi 1, E.F. van Dishoeck 1, J.H. Black 2, N.J. Evans 3, D.T. Jaffe 3 & D.J. Jansen 1,
1 Leiden Observatory, P.O. Box 9513, 2300 RA Leiden, The Netherlands
2 Onsala Space Observatory, S-43992 Onsala, Sweden
3 Astronomy Dept., University of Texas, Austin, TX 78712, USA
We present the first results of a survey of the molecular hydrogen
pure-rotational lines observed with the ISO-SWS in different interstellar
environments: diffuse clouds, translucent clouds and photon-dominated
regions (PDR). Results for the S(0) at 28.218 
m and S(1) at 17.035
m lines will be presented for different positions
in the outskirts of the molecular
cloud S140, the diffuse cloud in the line of
sight toward 
Ophiuchi, and the PDR IC 63.
The density ranges from n
102 cm-3
in the diffuse cloud toward Ophiuchi to n
105
cm-3 in IC 63, and the incident UV radiation varies from
I
-1000.
The levels involved in the H2 lines lie quite high in energy: E
510 K and 
1015 K for J=2 and J=3 respectively, and thus
appear excellent tracers of the ``warm'' (T
100 K) gas component
of these objects.
The observations are interpreted with comprehensive models, which take both
collisional excitation and ultraviolet pumping of H2 into account.
In the case of Ophiuchi, the ISO results are compared with those of
H2 observations at ultraviolet wavelengths.
Lines up to S(5) are detected from the IC 63 cloud illuminated by the B0.5 star
Cas, which are compared with the detailed available physical models
for this cloud.
The data form tests of the temperature structure
and heating mechanisms of these clouds.