Consider an object undergoing a rotational motion in the xy-plane about a fixed axis perpendicular to the plane of motion. Let O be a point in the xy-plane along the axis of rotation and P is a fixed point on the object. Due to the rotation of the object, point P will experience a circular motion with the radius of its circular path r = 0.6 m. Assume that at some point in time, the angular acceleration of the point P is a = 5rad/s and an angle between the vectors of its tangential and net acceleration is ß = 30°. Determine the magnitude of the linear velocity (v) of point P and the magnitude of its tangential (at), normal (an), and net (a) acceleration vectors. an Re h Ay

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Consider an object undergoing a rotational motion in the xy-plane about a fixed axis perpendicular to the plane of motion. Let O be a point in the xy-plane along the axis of rotation and P is a fixed point on the object. Due to the rotation of the object, point P will experience a circular motion with the radius of its circular path r = 0.6 m. Assume that at some point in time, the angular acceleration of the point P is a = 5rad/s and an angle between the vectors of its tangential and net acceleration is ß = 30°. Determine the magnitude of the linear velocity (v) of point P and the magnitude of its tangential (at), normal (an), and net (a) acceleration vectors. 0 an o O Ө h Ay