A thin plank of mass M is placed centrally across two solid cylindrical rollers each of mass m, and the system is allowed to move freely from rest without slip down a slope of angle as shown in the figure below. (a) Derive expressions for the initial accelerations of the plank and the roller. Your solution should include the following in a systematic way: (ii) free-body, kinematic and kinetic diagrams with an appropriate global axes system clearly shown, (iii) statements of relevant kinematic and kinetic relationships with reference to your chosen global axes system in (ii), and 0 + + XXXX

Elements Of Electromagnetics
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A thin plank of mass M is placed centrally across two solid cylindrical rollers each
of mass m, and the system is allowed to move freely from rest without slip down a
slope of angle as shown in the figure below.
(a) Derive expressions for the initial accelerations of the plank and the roller.
Your solution should include the following in a systematic way:
(ii) free-body, kinematic and kinetic diagrams with an appropriate
global axes system clearly shown,
(iii) statements of relevant kinematic and kinetic relationships with
reference to your chosen global axes system in (ii), and
0
+
3
+
(XXX
Transcribed Image Text:A thin plank of mass M is placed centrally across two solid cylindrical rollers each of mass m, and the system is allowed to move freely from rest without slip down a slope of angle as shown in the figure below. (a) Derive expressions for the initial accelerations of the plank and the roller. Your solution should include the following in a systematic way: (ii) free-body, kinematic and kinetic diagrams with an appropriate global axes system clearly shown, (iii) statements of relevant kinematic and kinetic relationships with reference to your chosen global axes system in (ii), and 0 + 3 + (XXX
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