At the instant the displacement of a 2.00 kg object relative to the origin is (2.00 m) + (4.00 m) - (3.00 m) K, its velocity is = (2.61 m/s) + (1.57 m/s) + (6.37 m/s) K and it is subject to a force = (1.47 N) - (8.39 N) + (8.16 N) K. Find the acceleration of the object ((a), (b) and (c) for | and components respectively), the angular momentum of the object about the origin ((d), (e) and (f) for | and components respectively), the torque about the origin acting on the object ((g), (h) and (i) for , J andk components respectively), and (j) the angle between the velocity of the object and the force acting on the object.
At the instant the displacement of a 2.00 kg object relative to the origin is (2.00 m) + (4.00 m) - (3.00 m) K, its velocity is = (2.61 m/s) + (1.57 m/s) + (6.37 m/s) K and it is subject to a force = (1.47 N) - (8.39 N) + (8.16 N) K. Find the acceleration of the object ((a), (b) and (c) for | and components respectively), the angular momentum of the object about the origin ((d), (e) and (f) for | and components respectively), the torque about the origin acting on the object ((g), (h) and (i) for , J andk components respectively), and (j) the angle between the velocity of the object and the force acting on the object.
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I just need help with h, i and j.
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