Given that the normal boiling point of CH3COCH3 is 56 °C, which of the following statements about he process below is/are correct? You may choose more than one, or none, of the statements. CH3COCH3(g, 74 °C, 1 atm) → CH3COCH3(1, 46 °C, 1 atm) You may assume that the temperature of the surroundings is constant and also equal to 46 °C. Note: The normal boiling point (Tnbp) is the boiling temperature at 1 atm. The phase change is eversible at the normal boiling point but irreversible if P = 1 atm and T* Tnbp.
Given that the normal boiling point of CH3COCH3 is 56 °C, which of the following statements about he process below is/are correct? You may choose more than one, or none, of the statements. CH3COCH3(g, 74 °C, 1 atm) → CH3COCH3(1, 46 °C, 1 atm) You may assume that the temperature of the surroundings is constant and also equal to 46 °C. Note: The normal boiling point (Tnbp) is the boiling temperature at 1 atm. The phase change is eversible at the normal boiling point but irreversible if P = 1 atm and T* Tnbp.
Chemistry & Chemical Reactivity
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Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
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Chapter11: Intermolecular Forces And Liquids
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Problem 21PS: Equilibrium vapor pressures of benzene, C6H6, at various temperatures are given in the table. (a)...
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Transcribed Image Text:Given that the normal boiling point of CH3COCH3 is 56 °C, which of the following statements about
the process below is/are correct? You may choose more than one, or none, of the statements.
CH3COCH3(g, 74 °C, 1 atm) → CH3COCH3(1, 46 °C, 1 atm)
You may assume that the temperature of the surroundings is constant and also equal to 46 °C.
Note: The normal boiling point (Tnbp) is the boiling temperature at 1 atm. The phase change is
reversible at the normal boiling point but irreversible if P = 1 atm and T* Tnbp.
The entropy of the system increases: AS > 0.
The entropy of the surroundings increases: ASsurr > 0.
The entropy of the universe increases: ASuniv> 0.
Work is done by the system on the surroundings.
Heat flows from the system into the surroundings.
The entropy change for the system is equal to AH / Tvap.
The entropy change for the system is equal to AHI Tsurr.
The process is thermodynamically reversible.
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