Respuesta :
Answer:
0.01744 M is the hardness of the groundwater.
1,744 ppm is the hardness of the groundwater in parts per million of calcium carbonate by mass.
Explanation:
[tex]Ca(In)^{2+}(red)+EDTA\rightarrow Ca(EDTA)^{2+}+In(blue)[/tex]
In = Indicator
Concentration of calcium ion in groud water = [tex]C_1=?[/tex]
Volume of ground water = [tex]V_1=50.00 mL[/tex]
Concentration of EDTA solution = [tex]C_2=0.0800 M[/tex]
Volume of EDTA solution = [tex]V_2=10.90 mL[/tex]
[tex]C_1V_1=C_2V_2[/tex]
[tex]C_1=\frac{C_2V_2}{V_1}=\frac{0.0800 M\times 10.90 mL}{50.00 mL}=0.01744 M[/tex]
[tex]CaCO_3(sq)\rightarrow Ca^{2+}(aq)+CO_3^{2-}(aq)[/tex]
[tex][CaCO_3]=[Ca^{2+}][/tex]
So. [tex][CaCO_3]=0.01744 M[/tex]
0.01744 M is the hardness of the groundwater.
0.01744 Moles of calcium carbonate are present in 1 Liter of solution.
Mass of 0.01744 moles of calcium carbonate =
[tex]0.01744 mol\times 100=1.744 g[/tex]
1 g = 1000 g
1.744 g = 1.744 × 1000 mg = 1,744 mg
[tex]ppm=\frac{\text{Mass of solute) mg)}}{\text{Volume of solution}{L}}[/tex]
The hardness of the groundwater in parts per million :
[tex]\frac{1,744 mg}{1 L}= 1,744[/tex]
1,744 ppm is the hardness of the groundwater in parts per million of calcium carbonate by mass.
