Two masses of 2.50 kg and 6.00 kg are connected by a light string that passes over a frictionless pulley, as in Figure below. Determine (a) the tension in the string, (b) the acceleration of each mass, and (c) the distance each mass will move in the first second of motion if they start from rest. O(a) 17.3 N; (b) 4.04 m/s²; (c) 2.02 m O (a) 4.04 N; (b) 34.6 m/s²; (c) 17.3 m O (a) 34.6 N; (b) 9.80 m/s²; (c) 4.90 m (a) 34.6 N; (b) 4.04 m/s²; (c) 2.02 m
Two masses of 2.50 kg and 6.00 kg are connected by a light string that passes over a frictionless pulley, as in Figure below. Determine (a) the tension in the string, (b) the acceleration of each mass, and (c) the distance each mass will move in the first second of motion if they start from rest. O(a) 17.3 N; (b) 4.04 m/s²; (c) 2.02 m O (a) 4.04 N; (b) 34.6 m/s²; (c) 17.3 m O (a) 34.6 N; (b) 9.80 m/s²; (c) 4.90 m (a) 34.6 N; (b) 4.04 m/s²; (c) 2.02 m
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Transcribed Image Text:Two masses of 2.50 kg and 6.00 kg are connected by a light string that passes over a
frictionless pulley, as in Figure below.
Determine (a) the tension in the string, (b) the acceleration of each mass, and (c) the
distance each mass will move in the first second of motion if they start from rest.
O
(a) 17.3 N; (b) 4.04 m/s²; (c) 2.02 m
(a) 4.04 N; (b) 34.6 m/s²; (c) 17.3 m
(a) 34.6 N; (b) 9.80 m/s²; (c) 4.90 m
(a) 34.6 N; (b) 4.04 m/s²; (c) 2.02 m
O
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