Two copper blocks, each of mass 1.00 kg, one at 50 °C and the other at 0 °C, are placed in contact in an isolated container (so no heat can escape) and allowed to come to equilibrium. Calculate the final temperature of the two blocks, the entropy change of each, and ΔStot. The specific heat capacity of copper is 0.385 J K−1 g−1 and may be assumed constant over the temperature range involved. Comment on the sign of ΔS tot.
Two copper blocks, each of mass 1.00 kg, one at 50 °C and the other at 0 °C, are placed in contact in an isolated container (so no heat can escape) and allowed to come to equilibrium. Calculate the final temperature of the two blocks, the entropy change of each, and ΔStot. The specific heat capacity of copper is 0.385 J K−1 g−1 and may be assumed constant over the temperature range involved. Comment on the sign of ΔS tot.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter16: Thermodynamics: Directionality Of Chemical Reactions
Section: Chapter Questions
Problem 93QRT: The standard molar entropy of iodine vapor, I2(g), is 260.7 J Kl mol-1 and the standard molar...
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Two copper blocks, each of mass 1.00 kg, one at 50 °C and the other at 0 °C, are placed in contact in an isolated container (so no heat can escape) and allowed to come to equilibrium. Calculate the final temperature of the two blocks, the entropy change of each, and ΔStot. The specific heat capacity of copper is 0.385 J K−1 g−1 and may be assumed constant over the temperature range involved. Comment on the sign of ΔS tot.
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