Required information The T-bar consists of two thin rods, OA and BD, each of length L = 1.5 m and mass m= 12 kg, that are connected to the frictionless pin at O. The rods are welded together at A and lie in the vertical plane. At the instant shown, the system is rotating clockwise with angular velocity wo = 7 rad/s. T Determine the force on the pin at O and the angular acceleration of the rods. The force on the pin at Ois Fo=(- 3) N. The angular acceleration of the system is - 6.9 k rad/s².

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Required information
The T-bar consists of two thin rods, OA and BD, each of length L = 1.5 m and mass m = 12 kg, that are connected to the
frictionless pin at O. The rods are welded together at A and lie in the vertical plane. At the instant shown, the system is
rotating clockwise with angular velocity wo = 7 rad/s.
L
DU
L
Determine the force on the pin at O and the angular acceleration of the rods.
The force on the pin at Ois Fo=(-
The angular acceleration of the system is –-
i +
3) N.
6.9 → krad/s²
Transcribed Image Text:Required information The T-bar consists of two thin rods, OA and BD, each of length L = 1.5 m and mass m = 12 kg, that are connected to the frictionless pin at O. The rods are welded together at A and lie in the vertical plane. At the instant shown, the system is rotating clockwise with angular velocity wo = 7 rad/s. L DU L Determine the force on the pin at O and the angular acceleration of the rods. The force on the pin at Ois Fo=(- The angular acceleration of the system is –- i + 3) N. 6.9 → krad/s²
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