A solution contains 0.035 M Ag+ and 0.047 M Pb²+. If you add Cl", AgCl and P6CI, will begin to precipitate. What is the concentration of Cl- required, in molarity, when AgCl precipitation begins? concentration of Cl- = 5.14 x10-9 M What is the concentration of Cl¯ required, in molarity when AgCl precipitation is 99.99% complete? concentration of Cl- = 5.14 ×10-5 M What is the concentration of Cl¯ required, in molarity when PbCl, precipitation begins? concentration of Cl- = 1.90 x10-2 M What is the concentration of Cl¯ required, in molarity when PbCl, precipitation is 99.99% complete? concentration of Cl- = 1.90 M Finally, give the Cl¯ concentration range in which Ag+ can be completely separated from Pb²+ by precipitation. Give the lowest Cl- concentration for the separation of Ag+ from Pb²+. concentration of Cl- = M Incorrect Give the highest Cl- concentration for the separation of Ag+ from Pb²+. concentration of Cl- = M Incorrect

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A solution contains 0.035 M Ag+ and 0.047 M Pb²+. If you add Cl¯, AgCl and PBCI, will begin to precipitate. What is the concentration of Cl- required, in molarity, when AgCl precipitation begins? 5.14 x10-9 M concentration of Cl- = What is the concentration of Cl- required, in molarity when AgCl precipitation is 99.99% complete? concentration of Cl- = 5.14 x10-5 M What is the concentration of Cl- required, in molarity when PbCl, precipitation begins? 1.90 x10-2 M concentration of Cl- = What is the concentration of Cl¯ required, in molarity when PbCl, precipitation is 99.99% complete? concentration of Cl- = 1.90 M Finally, give the Cl- concentration range in which Ag+ can be completely separated from Pb2+ by precipitation. Give the lowest Cl- concentration for the separation of Ag+ from Pb2+. concentration of Cl- = M Incorrect Give the highest Cl- concentration for the separation of Ag+ from Pb2+. concentration of Cl- = M Incorrect