Cross sections and vector-analyzing powers for four unspecific configuratio
ns of the H-2(p,pp)yl breakup reaction at E-p(lab) = 65 MeV were measured i
n a kinematically complete experiment. Measured observables are compared wi
th rigorous Faddeev calculations using four realistic charge-dependent inte
raction models, the CD Bonn, Argonne upsilon (18), Nijmegen I, and Nijmegen
II potentials with or without inclusion of the Tucson-Melbourne three-nucl
eon force. Coulomb effects are completely omitted. A satisfactory agreement
between theory and experiment has been found. There exist, however, some d
iscrepancies between measured and calculated analyzing-power distributions
in certain kinematical regions. The effects of the Tucson-Melbourne three-b
ody force are either negligible or slightly increasing the disagreement.