Problem 3: Consider the pulley system below. Consider the system when m, is 30-degrees from the vertical axis. Assume the tension in the cable is tangent to the radius of curvature. Determine the magnitude of the acceleration of m, the tension in the cable (T), and the critical maximum speeds of both m, and m2. Show all work. Note: Critical maximum speed is the maximum speed of m, before it leaves the arch. m; = 0.4 kg, m; = 0.5 kg, and the radius of curvature = 1.75 m.
Problem 3: Consider the pulley system below. Consider the system when m, is 30-degrees from the vertical axis. Assume the tension in the cable is tangent to the radius of curvature. Determine the magnitude of the acceleration of m, the tension in the cable (T), and the critical maximum speeds of both m, and m2. Show all work. Note: Critical maximum speed is the maximum speed of m, before it leaves the arch. m; = 0.4 kg, m; = 0.5 kg, and the radius of curvature = 1.75 m.
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Transcribed Image Text:Problem 3: Consider the pulley system below. Consider the system when m, is 30-degrees from the
vertical axis. Assume the tension in the cable is tangent to the radius of curvature. Determine the
magnitude of the acceleration of m, the tension in the cable (T), and the critical maximum speeds of both
m, and m2. Show all work.
Note: Critical maximum speed is the maximum speed of m, before it leaves the arch.
m; = 0.4 kg, m; = 0.5 kg, and the radius of curvature = 1.75 m.
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