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An EDTA standard was made at 22.5 C by dissolving 0.6206 g(uncorrected mass) of Na2H2EDTA2H2O (see "Reagents and Equipment," above) in a499.859 mL...

An EDTA standard was made at 22.5 °C by dissolving 0.6206 g(uncorrected mass) of Na2H2EDTA·2H2O (see “Reagents and Equipment,” above) in a499.859 mL volumetric flask. Several 9.9873 mL aliquots of unknown were titrated for totaldivalent metal ions, and required an average of 23.197 mL of EDTA solution to reach theend point. After precipitation of Mg2+ from several additional 9.9873 mL aliquots ofunknown, an average of 15.660 mL of titrant was required to reach the end point. All blankswere zero. Determine the total hardness in mg/L as CaCO3, given that the molar mass ofCaCO3 = 100.0868 g/mol. Finally, calculate the concentrations of Ca2+ and Mg2+ individually,in mM. Be sure to explicitly show the mole ratio in your sample stoichiometry calculations—do not treat this like a dilution problem. [Note: you do not have to show how to calculatethe density of water at 22.5 °C, the buoyancy correction factor for EDTA, or the molar massof CaCO3, but you do have to show how to use each of these quantities in the sample

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