When 1 mol each of C2H5OH and CH3CO2H are allowed to react in 1 L of the solvent dioxane, equilibrium is established when 13 mol
1 answer:
Answer:
- Keq = 4
Explanation:
The correct statement is:
When 1 mol each of C₂H₅OH and CH₃CO₂H are allowed to react in 1 L of the solvent dioxane, equilibrium is established when 1/3 mol of each of the reactants remains. Calculate the equilibrium constant for the reaction. (Note: Water is a solute in this reaction.)
<u>1. Equilibrium equation</u>
- C₂H₅OH + CH₃CO₂H ⇄ CH₃CO₂C₂H₅ + H₂O
↑ ↑ ↑ ↑
ethanol acetic acid ethyl acetate water
<u>2. Equilibrium constant</u>
- Keq = [Products] / [Reactants], each raised to tis stoichiometrical coefficient.
Since water is also a solute in this reaction (the solvent is dioxane) its concentration will appear in the equilibrium constant.
<u>3. Equlibrium concentrations:</u>
Moles
C₂H₅OH + CH₃CO₂H ⇄ CH₃CO₂C₂H₅ + H₂O
Initial 1 1 0 0
Change -2/3 -2/3 +2/3 +2/3
End 1/3 1/3 2/3 2/3
Since the volume is 1 liter, the concentration is equal to the number of moles
<u>4. Calculations:</u>
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Answer:
There are present 5,5668 moles of water per mole of CuSO₄.
Explanation:
The mass of CuSO₄ anhydrous is:
23,403g - 22,652g = 0,751g.
mass of crucible+lid+CuSO₄ - mass of crucible+lid
As molar mass of CuSO₄ is 159,609g/mol. The moles are:
0,751g × = 4,7052x10⁻³ moles CuSO₄
Now, the mass of water present in the initial sample is:
23,875g - 0,751g - 22,652g = 0,472g.
mass of crucible+lid+CuSO₄hydrate - CuSO₄ - mass of crucible+lid
As molar mass of H₂O is 18,02g/mol. The moles are:
0,472g × = 2,6193x10⁻² moles H₂O
The ratio of moles H₂O:CuSO₄ is:
2,6193x10⁻² moles H₂O / 4,7052x10⁻³ moles CuSO₄ = 5,5668
That means that you have <em>5,5668 moles of water per mole of CuSO₄.</em>
I hope it helps!