a) Obtain the internal model of the rotational mechanical system, in which two rotational masses 1₁ and 12, with diameters D₁ and D2, are coupled as gears and it is interesting to know the rotation speed of the rotational spring W, the torque in the rotation damper T₁ and the speed of rotation of the rotation mass 2 (W₂) 1₂ wlty حتى b) Obtain the mathematical expression for the evolution of the rotation speed of the rotational mass 2, if the gears are uncoupled when the rotational mass 1 rotates at 120 rad/s and graph it that = 9 ,12 10 considering Nm kr₁ = 8 kgm² rad 11 ,D₂ = 0.125 m and br₂ = 6 Nms/rad rad Graph from the fact that the gears are uncoupled (t=0) kgm² rad = 4 , D₁ = 0.15 m, br₁ Nms rad =

a) Obtain the internal model of the rotational mechanical system, in which two rotational masses 1₁ and 12, with diameters D₁ and D2, are coupled as gears and it is interesting to know the rotation speed of the rotational spring W, the torque in the rotation damper T₁ and the speed of rotation of the rotation mass 2 (W₂) 1₂ wlty حتى b) Obtain the mathematical expression for the evolution of the rotation speed of the rotational mass 2, if the gears are uncoupled when the rotational mass 1 rotates at 120 rad/s and graph it that = 9 ,12 10 considering Nm kr₁ = 8 kgm² rad 11 ,D₂ = 0.125 m and br₂ = 6 Nms/rad rad Graph from the fact that the gears are uncoupled (t=0) kgm² rad = 4 , D₁ = 0.15 m, br₁ Nms rad =

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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