6-5. A particle of mass m is embedded at a distance / from the center O of a massless circular disk of radius r. It rolls without slipping down a plane inclined at an angle a with the horizontal. Find the differential equation for 6. Figure P6-5 In additional steps that need development are: a- Conservation of linear momentum, where the center of mass is the particle. (Ref. Page 53 on Donald Greenwood). b- Conservation of angular momentum, has point of contact of the disk with the plane. (Ref. Page 54 on Donald Greenwood). C Find the differential equation for (e). (I HAVE THIS PART ONLY HELP ME WITH THE PART A AND B.)

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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6-5. A particle of mass m is embedded at a distance / from the center O of a massless
circular disk of radius r. It rolls without slipping down a plane inclined at an angle a
with the horizontal. Find the differential equation for 6.
Figure P6-5
In additional steps that need development are:
a- Conservation of linear momentum, where the center of mass is the
particle. (Ref. Page 53 on Donald Greenwood).
b- Conservation of angular momentum, has point of contact of the disk
with the plane.
(Ref. Page 54 on Donald Greenwood).
c- Find the differential equation for (e). (I HAVE THIS PART ONLY HELP
ME WITH THE PART A AND B.)
Transcribed Image Text:6-5. A particle of mass m is embedded at a distance / from the center O of a massless circular disk of radius r. It rolls without slipping down a plane inclined at an angle a with the horizontal. Find the differential equation for 6. Figure P6-5 In additional steps that need development are: a- Conservation of linear momentum, where the center of mass is the particle. (Ref. Page 53 on Donald Greenwood). b- Conservation of angular momentum, has point of contact of the disk with the plane. (Ref. Page 54 on Donald Greenwood). c- Find the differential equation for (e). (I HAVE THIS PART ONLY HELP ME WITH THE PART A AND B.)
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