C. 8.12 d. 3.44 e. 5.28 3. Determine the solubility of the ions that is calculated from the Ksp for Mg2CO3. a. 2s3 b. S c. 453 d. S е. 25 Determine the molar solubility of PbSO4 in pure water. Ksp (PBSO4) = 1.82 x 10°. a. 1.82 x 10-8 M b. 1.35 x 104M c. 9.1 x 10-9M d. 3.31 x 10 16 M e. 4.48 x 104M %3D 15 Determine the molar solubility of Fe(OH)2 in pure water. Ksp for Fe(OH)2= 4.87 x a. 2.44 x 1017 M b. 1.62 x 1017 M 4.03 x 10-9 M d. 3.65 x 106 M e. 2.30 x 106 M - %3D с. The molar solubility of Ba3(PO4)2 is 8.89 x 10M in pure water. Calculate the Ks Ba3(PO4)2. a. 4.94 x 10 49 M b. 5.55 x 1041 M c. 5.33 x 10-37 M d. 8.16 x 1031 M e. 6.00 x 10-39 M
C. 8.12 d. 3.44 e. 5.28 3. Determine the solubility of the ions that is calculated from the Ksp for Mg2CO3. a. 2s3 b. S c. 453 d. S е. 25 Determine the molar solubility of PbSO4 in pure water. Ksp (PBSO4) = 1.82 x 10°. a. 1.82 x 10-8 M b. 1.35 x 104M c. 9.1 x 10-9M d. 3.31 x 10 16 M e. 4.48 x 104M %3D 15 Determine the molar solubility of Fe(OH)2 in pure water. Ksp for Fe(OH)2= 4.87 x a. 2.44 x 1017 M b. 1.62 x 1017 M 4.03 x 10-9 M d. 3.65 x 106 M e. 2.30 x 106 M - %3D с. The molar solubility of Ba3(PO4)2 is 8.89 x 10M in pure water. Calculate the Ks Ba3(PO4)2. a. 4.94 x 10 49 M b. 5.55 x 1041 M c. 5.33 x 10-37 M d. 8.16 x 1031 M e. 6.00 x 10-39 M
Chapter9: Aqueous Solutions And Chemical Equilibria
Section: Chapter Questions
Problem 9.8QAP
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