Part A
CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. The reaction that occurs is
CaO(s)+H2O(l)⇌Ca(OH)2(s)
The product is commonly called slaked lime.
Assuming the commonly used standard-state temperature of 25∘C, calculate ΔSuniv for this reaction using the data from the table below.
Substance | S∘ [J K−1 mol−1] |
ΔfH∘ (kJ mol−1) |
CaO(s) | 39.9 | −635.1 |
H2O(l) | 69.9 | −285.8 |
Ca(OH)2(s) | 83.4 | −986.1 |
Part B
A particular solvent with ΔvapS∘=112.9J K−1 mol−1 and ΔvapH∘=38.0kJ mol−1 is being considered for an experiment. In the experiment, which is to be run at 75 ∘C, the solvent must not boil. Based on the entropy change of the universe associated with the vaporization reaction, would this solvent be suitable and why or why not?
The solvent would
A particular solvent with and is being considered for an experiment. In the experiment, which is to be run at 75 , the solvent must not boil. Based on the entropy change of the universe associated with the vaporization reaction, would this solvent be suitable and why or why not?
be suitable because ΔSuniv>0. |
not be suitable because ΔSuniv>0. |
be suitable because ΔSuniv<0. |
not be suitable because ΔSuniv<0. |
Part A CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. T...
Part A CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. The reaction that occurs is CaO(s)+H2O(l)⇌Ca(OH)2(s) The product is commonly called slaked lime. Assuming the commonly used standard-state temperature of 25∘C, calculate ΔSuniv for this reaction using table from the table below. Substance S∘ [J/(K⋅mol)] ΔH∘f (kJ/mol) CaO(s) 39.9 −635.1 H2O(l) 69.9 −285.8 Ca(OH)2(s) 83.4 −986.1 Express your answer to three significant figures and include the appropriate...
CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. The reaction that occurs is CaO(s)+H2O(l)⇌Ca(OH)2(s) The product is commonly called slaked lime. Assuming the commonly used standard-state temperature of 25∘C, calculate ΔSuniv for this reaction using table from the table below. Substance S∘ [J/(K⋅mol)] ΔH∘f (kJ/mol) CaO(s) 39.9 −635.1 H2O(l) 69.9 −285.8 Ca(OH)2(s) 83.4 −986.1
CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. The reaction that occurs is CaO(s)+H2O(l)⇌Ca(OH)2(s) The product is commonly called slaked lime. Assuming ambient standard temperature of 298.15 K, calculate ΔStotal for this reaction using table from the table below. Substance S∘ [J/(K⋅mol)] ΔH∘f (kJ/mol) CaO(s) 39.9 −635.1 H2O(l) 69.9 −285.8 Ca(OH)2(s) 83.4 −986.1
PART 2 Q1(10 pts.) CaO can be used as a drying agent. One such application occurs when water is added to dry concrete or cement. The reaction that occurs is: Cam(s) +H2O(1) = Ca(OH)2(s) The product is commonly known as slaked lime. Using the table below at 25°C, calculate the entropy of the universe. Is this an spontaneous process? Explain sº AH Substance [J/(K·mol)] (kJ/mol) | CaO(s) | 39.9 -635.1 H2O(1) 69.9 -285.8 Ca(OH)2 (s) 83.4 83.4 -986.1
Part B A particular solvent with A Svap = 112.9 J/(K.mol) and AHvap = 38.0 kJ/mol is being considered for an experiment. In the experiment, which is to be run at 75 °C, the solvent must not boil. Based on the overall entropy change associated with the vaporization reaction, would this solvent be suitable and why or why not? ► View Available Hint(s) O be suitable because AS univ> 0. The solvent would O not be suitable because AS univ>...