Can this motor drive an actuator...

Speed
(rad/srpm)
Winding resistance (2 phase, line-linesingle phase, aluminiumcopper @℃) = Ω
Winding inductance (2 phase, line-linesingle phase) = mH
Back-EMF constant (2 phase, line-linesingle phase, SmCoNdFeB @℃) = mVs/rad
Number of pole pairs =
Eddy current iron loss coefficient = mNms/rad
Hysteresis iron loss torque = mNm
Motor inertia = kg·m²
Viscous friction coefficient = mNms/rad
Coulomb friction torque = mNm
Ambient temperature =
Winding temperature limit =
Winding-to-stator thermal resistance = K/W
Stator-to-rotor thermal resistance = K/W
Stator-to-ambient thermal resistance = K/W
Rotor-to-ambient thermal resistance = K/W
Nominal voltage = V
Max. drive current = A

...to meet these requirements...

Speed
(rad/s)
Acceleration
(rad/s²)
Torque
(Nm)
move profile and a constant load.
Move distance = rad
Move total period = s
Load inertia = kg·m²
Load mean torque = N·m
Move rise period = %, Move fall period = %
 Acceleration rise period = %, Acceleration fall period = %
Deceleration rise period = %, Deceleration fall period = %
 Total viscous friction = mNms/rad
(not used to calculate required torques)

...with these transmission parameters...

Transmission efficiency = %
Transmission inertia = kg·m²
Peak
power rate
(W/s)
Continuous
power rate
(W/s)

...Yes

with a transmission ratio between and ,
producing between and positioning steps.

...No