An ice cube of mass 0.1 kg at 0°C is placed in an isolated container which is at 227°C. The specific heat S of the container varies with temperature T according to the empirical relation S = A + BT, where A = 100 cal/kg-K and B = 2 x 102 cal/kg-K2. If the final temperature of the container is 27°C, determine the mass of the container. (Latent heat of fusion for water = 8 x 10 cal/kg, specific heat of water 10³ cal/kg-K). =
An ice cube of mass 0.1 kg at 0°C is placed in an isolated container which is at 227°C. The specific heat S of the container varies with temperature T according to the empirical relation S = A + BT, where A = 100 cal/kg-K and B = 2 x 102 cal/kg-K2. If the final temperature of the container is 27°C, determine the mass of the container. (Latent heat of fusion for water = 8 x 10 cal/kg, specific heat of water 10³ cal/kg-K). =
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Transcribed Image Text:An ice cube of mass 0.1 kg at 0°C is placed in an isolated
container which is at 227°C. The specific heat S of the
container varies with temperature T according to the
empirical relation S = A + BT, where A = 100 cal/kg-K and
B = 2 x 102 cal/kg-K². If the final temperature of the
container is 27°C, determine the mass of the container.
(Latent heat of fusion for water = 8 x 10 cal/kg, specific
heat of water = 10³ cal/kg-K).
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