A 24.0 g copper ring at 0°C has an inner diameter of D = 2.90760 cm. A hollow aluminum sphere at 81.0°C has a dia 2.91274 cm. The sphere is placed on top of the ring (see the figure), and the two are allowed to come to thermal eq heat lost to the surroundings. The sphere just passes through the ring at the equilibrium temperature. What is the The linear expansion coefficient of aluminum is 23.0 × 10-6 /C°, the linear expansion coefficient of copper is 17.0 x heat of aluminum is 900 J/kg-K, and the specific heat of copper is 386 J/kg-K.
A 24.0 g copper ring at 0°C has an inner diameter of D = 2.90760 cm. A hollow aluminum sphere at 81.0°C has a dia 2.91274 cm. The sphere is placed on top of the ring (see the figure), and the two are allowed to come to thermal eq heat lost to the surroundings. The sphere just passes through the ring at the equilibrium temperature. What is the The linear expansion coefficient of aluminum is 23.0 × 10-6 /C°, the linear expansion coefficient of copper is 17.0 x heat of aluminum is 900 J/kg-K, and the specific heat of copper is 386 J/kg-K.
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Transcribed Image Text:A 24.0 g copper ring at 0°C has an inner diameter of D = 2.90760 cm. A hollow aluminum sphere at 81.0°C has a diameter of d =
2.91274 cm. The sphere is placed on top of the ring (see the figure), and the two are allowed to come to thermal equilibrium, with no
heat lost to the surroundings. The sphere just passes through the ring at the equilibrium temperature. What is the mass of the sphere?
The linear expansion coefficient of aluminum is 23.0 × 10-6 /C°, the linear expansion coefficient of copper is 17.0 x 10-6/C°, the specific
heat of aluminum is 900 J/kg-K, and the specific heat of copper is 386 J/kg.K.
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