The vertical shaft AB in Fig. (a) rotates in a bearing at A. The 0.6-kg slider can move freely along the frictionless bar OD, which is, rigidly joined to at a 30° angle. At a certain instant when r = 1.2 m, it is known that 0 = 4 rad/s, "0 = 0, and the velocity of P relative to OD is 'r= 4 m/s. At this instant, determine the magnitude of the contact force exerted on P by OD; and "r, the acceleration of P relative to OD.
The vertical shaft AB in Fig. (a) rotates in a bearing at A. The 0.6-kg slider can move freely along the frictionless bar OD, which is, rigidly joined to at a 30° angle. At a certain instant when r = 1.2 m, it is known that 0 = 4 rad/s, "0 = 0, and the velocity of P relative to OD is 'r= 4 m/s. At this instant, determine the magnitude of the contact force exerted on P by OD; and "r, the acceleration of P relative to OD.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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AE 3-10 ) please SolVE it
![АЕ-3-10 (Р-Е-13.12)
The vertical shaft AB in Fig. (a) rotates in a bearing at A. The 0.6-kg slider
can move freely along the frictionless bar OD, which is, rigidly joined to
at a 30° angle. At a certain instant when r = 1.2 m, it is known that 0 = 4
rad/s, "0= 0, and the velocity of P relative to OD is 'r=4 m/s. At this
instant, determine the magnitude of the contact force exerted on P by
OD; and “r, the acceleration of P relative to OD.
9,
R
P
30°](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe7c9ae0e-fe2a-4a14-a817-fb4aec83aba9%2F0bd1ab5d-e099-4e9a-901b-fd9285fc0c95%2Ftjz3w2c_processed.jpeg&w=3840&q=75)
Transcribed Image Text:АЕ-3-10 (Р-Е-13.12)
The vertical shaft AB in Fig. (a) rotates in a bearing at A. The 0.6-kg slider
can move freely along the frictionless bar OD, which is, rigidly joined to
at a 30° angle. At a certain instant when r = 1.2 m, it is known that 0 = 4
rad/s, "0= 0, and the velocity of P relative to OD is 'r=4 m/s. At this
instant, determine the magnitude of the contact force exerted on P by
OD; and “r, the acceleration of P relative to OD.
9,
R
P
30°
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