We summarize the properties of EU Orionis variables, and show how accr
etion disk models simply explain many peculiarities of these objects.
FU Ori systems demonstrate that disk accretion in early stellar evolut
ion is highly episodic, varying from similar to 10(-7) M(circle dot) y
r(-1) in the low (T Tauri) state to 10(-4) M(circle dot) yr(-1) in the
high (FU Ori) state. This variability in mass accretion is matched by
a corresponding variability in mass ejection, with mass loss rates re
aching similar to 10(-1) of the mass accretion rates in outburst. It a
ppears that the FU Ori phenomenon is restricted to early phases of ste
llar evolution, probably with infall still occuring to the disk, which
may help drive repetitive outbursts. Thermal instabilities are a prom
ising way to produce FU Ori disk outbursts, although many uncertaintie
s remain in the theory; triggering by interactions with companion star
s on eccentric orbits may also play a role.