m1 2h m2 The figure above shows two objects connected by a a light length of string about a pulley. The string is ideal and does not strecth. The friction-less pulley has a moment of intertia I=1.9 kg-m2, and a radius R=26 cm. The objects have a mass of m1 and m2 equal to 6.0 and 2.7 kg, respectively. The pulley, mass, and string system moves without slipping. The objects start off as shown with m1 a height 2h above m2 where h = 1.1 m. (a) What are the speeds of the objects as they pass each other. (b) Find the angular speed of the pulley at the time that the objects pass each other.

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R m1 2h m2 The figure above shows two objects connected by a a light length of string about a pulley. The string is ideal and does not strecth. The friction-less pulley has a moment of intertia l=1.9 kg-m2, and a radius R=26 cm. The objects have a mass of m1 and m2 equal to 6.0 and 2.7 kg, respectively. The pulley, mass, and string system moves without slipping. The objects start off as shown with m1 a height 2h above m2 where h = 1.1 m. (a) What are the speeds of the objects as they pass each other. (b) Find the angular speed of the pulley at the time that the objects pass each other.