Answer:
The weight percent of potassium carbonate is 50,8 wt% and of potassium bicarbonate 49,2 wt%
Explanation:
The reactions of potassium carbonate (K₂CO₃) and potassium bicarbonate (KHCO₃) with HCl produce:
K₂CO₃ + 2HCl → 2KCl + CO₂ + H₂O
KHCO₃ + HCl → KCl + CO₂ + H₂O
That means that you need 2 moles of HCl to titrate potassium carbonate and 1 mol to titrate potassium bicarbonate.
The moles of HCl to titrate the mixture are:
0,03416L×[tex]\frac{0,762mol}{1L}[/tex] = 0,02603 mol of HCl
If X is mass of K₂CO₃ and Y is mass of KHCO₃ in the mixture, the moles of HCl to titrate the mixture are equals to:
0,02603 mol = 2X×[tex]\frac{138,2058 g}{1mol}[/tex] + Y×[tex]\frac{100,1154 g}{1mol}[/tex] (1)
As the mass of the mixture is 2,122g:
2,122g = X + Y (2)
Replacing (2) in (1):
0,02603 mol = 0,01447 (2,122-Y) + 9,988x10⁻³Y
0,02603 mol = 0,0307 - 0,01447Y + 9,988x10⁻³Y
-4,6778x10⁻³ = -4,4827x10⁻³Y
1,044g = Y -mass of potassium bicarbonate-
Thus:
X = 1,078g -mass of potassium carbonate-
The weight percent of potassium carbonate is:
[tex]\frac{1,078g}{2,122g}[/tex]×100 = 50,8 wt%
The weight percent of potassium bicarbonate is:
[tex]\frac{1,044g}{2,122g}[/tex]×100 = 49,2 wt%
I hope it helps!
