= 6 m, For the system displayed in the figure below, the lengths of rigid-body OA and AB are l₁ 1₂ = 4 m. For the configuration shown, 0 = 65°, y = 68°, h = 1.5 m; the small roller B has velocity v = 5.5 m/s and acceleration a = 5.8 m/s² at its center. C and D are respectively the midpoint of rigid-body OA and AB. Determine the velocity and acceleration of C perceived by an observer who is at D and rotating with AB. Ꮎ Ch h 4 D B

Elements Of Electromagnetics
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For the system displayed in the figure below, the lengths of rigid-body OA and AB are l₁ = 6 m,
1₂ = 4 m. For the configuration shown, 0 = 65°, y = 68⁰, h = 1.5 m; the small roller B has
velocity v = 5.5 m/s and acceleration a = 5.8 m/s² at its center. C and D are respectively the
midpoint of rigid-body OA and AB. Determine the velocity and acceleration of C perceived by an
observer who is at D and rotating with AB.
Ꮎ
C 1₁
12
D
BO P
a
V
Transcribed Image Text:For the system displayed in the figure below, the lengths of rigid-body OA and AB are l₁ = 6 m, 1₂ = 4 m. For the configuration shown, 0 = 65°, y = 68⁰, h = 1.5 m; the small roller B has velocity v = 5.5 m/s and acceleration a = 5.8 m/s² at its center. C and D are respectively the midpoint of rigid-body OA and AB. Determine the velocity and acceleration of C perceived by an observer who is at D and rotating with AB. Ꮎ C 1₁ 12 D BO P a V
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