A 47.50 mL aliquot from a 0.455 L solution that contains 0.500 g of MnSO4 (Fw...

A 45.80 mL aliquot from a 0.505 L solution that contains 0.495 g of MnSO4 (Fw...

A 45.80 mL aliquot from a 0.505 L solution that contains 0.495 g of MnSO4 (Fw = 151.00 g/mol) required 40.4 mL of an EDTA solution to reach the end point in a titration. What mass (in milligrams) of CaCO3 (FW = 100.09 g/mol) will react with 1.39 mL of the EDTA solution?

A 25 ml aliquot of of a solution containing Cu2+ and Ni2+ was treated with ascorbic...

A 25 ml aliquot of of a solution containing Cu2+ and Ni2+ was treated with ascorbic acid at pH = 3 to reduce the Cu2+ ions. The pH was adjusted to 10.0 and 27.32 ml of of 0.0565 M M EDTA was required to reach a murexide end point. In a parallel titration, 40.45 ml of 0 .0565 M EDTA was required to reach a murexide end point in a 25 ml aliquot that was not treated with ascorbic acid.  ...

A sample contains both NaOH and NaCl. 0.500 g of this sample was dissolved in water...

A sample contains both NaOH and NaCl. 0.500 g of this sample was dissolved in water to make a 20.0 mL solution and then this solution was titrated by 0.500 mol/L HCl solution. If 16.1 mL of HCl was used to reach the end point, what is the mass % of NaOH in the sample?

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of a 0.03828 M EDTA solution. The solution is then back titrated with 0.02192 M Zn2 solution at a pH of 5. A volume of 15.73 mL of the Zn2 solution was needed to reach the xylenol orange end point. A 2.000-mL aliquot of the Cu2 and Ni2 solution is fed through an ion-exchange column that retains Ni2 . The Cu2 that passed through the...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of a 0.05231 M EDTA solution. The solution is then back titrated with 0.02324 M Zn2 solution at a pH of 5. A volume of 20.98 mL of the Zn2 solution was needed to reach the xylenol orange end point. A 2.000-mL aliquot of the Cu2 and Ni2 solution is fed through an ion-exchange column that retains Ni2 . The Cu2 that passed through the...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of a 0.04127 M EDTA solution. The solution is then back titrated with 0.02003 M Zn2 solution at a pH of 5. A volume of 16.44 mL of the Zn2 solution was needed to reach the xylenol orange end point. A 2.000-mL aliquot of the Cu2 and Ni2 solution is fed through an ion-exchange column that retains Ni2 . The Cu2 that passed through the...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of a 0.04728 M EDTA solution. The solution is then back titrated with 0.02103 M Zn2 solution at a pH of 5. A volume of 19.11 mL of the Zn2 solution was needed to reach the xylenol orange end point. A 2.000-mL aliquot of the Cu2 and Ni2 solution is fed through an ion-exchange column that retains Ni2 . The Cu2 that passed through the...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of...

A 1.000-mL aliquot of a solution containing Cu2 and Ni2 is treated with 25.00 mL of a 0.03146 M EDTA solution. The solution is then back titrated with 0.02115 M Zn2 solution at a pH of 5. A volume of 16.97 mL of the Zn2 solution was needed to reach the xylenol orange end point. A 2.000-mL aliquot of the Cu2 and Ni2 solution is fed through an ion-exchange column that retains Ni2 . The Cu2 that passed through the...

A 0.4505 g sample of CaCO3 was dissolved in the HCl and the resulting solution diluted...

A 0.4505 g sample of CaCO3 was dissolved in the HCl and the resulting solution diluted to 25.00 mL in a volumetric flask. A 25.00 mL aliquot of the solution required 29.25 mL of EDTA solution for titration to the Eriochrom Black T end point. a. How many moles of CaCO3 were present in the solid sample? b. What is the molar concentration of Ca^2+ are contained in a 250.00 mL aliquot of the CaCl2 solution? c. How many moles...

A sample contains both NaOH and NaCl. 0.500 g of this sample was dissolved in water...

A sample contains both NaOH and NaCl. 0.500 g of this sample was dissolved in water to make a 20.0 mL solution and then this solution was titrated by 0.500 mol/L HCl solution. If 18.3 mL of HCl was used to reach the end point, what is the mass % of NaOH in the sample? NaOH + HCl --> NaCl + H2O Note: 1. Keep 3 sig figs for your final answer. 2. Answer as percentage.