Solubility = 0.289 M
The solubility of AgBr in water is 5.7410-7 M, but increases in the presence of thiosulfate...
The solubility of AgCl in water is 1.34x10-M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgCl when the solid is added to a solution that is 0.704 M in thiosulfate ion. For AgCI, Ksp = 1.80x10-10 and for Ag(S203)23, Kr=2.00x1013 Solubility =
The solubility of AgBr in water is 5.74×10-7 M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgBr when the solid is added to a solution that is 0.795 M in thiosulfate ion. For AgBr, Ksp = 3.30×10-13 and for Ag(S2O3)23-, Kf = 2.00×1013. Solubility = M
The solubility of AgCN in water is 1.10X10-8 M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgCN when the solid is added to a solution that is 0.750 M in thiosulfate ion. For AgCN, Ksp = 1.20x10-16 and for Ag(S2O3)23-, Kr= 2.00x1013. Solubility = M
The solubility of AgCN in water is 1.10×10-8 M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgCN when the solid is added to a solution that is 0.785 M in thiosulfate ion. For AgCN, Ksp = 1.20×10-16 and for Ag(S2O3)23-, Kf = 2.00×1013. Solubility = M
The solubility of AgI in water is 1.22×10-8 M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgI when the solid is added to a solution that is 0.694 M in thiosulfate ion. For AgI, Ksp = 1.50×10-16 and for Ag(S2O3)23-, Kf = 2.00×1013. Solubility = M
It is of interest to decide if an analytical separation of the metal ions can be effected by selective precipitation of carbonates from a solution that is 0.102 M in Cu²+ and 0.110 Min Ni2+ NiCO3 CuCO3 Ksp = 6.60X10-9 K = 2.50X10-10 To analyze this problem, answer the following questions. (1) What carbonate concentration is needed to precipitate 99.9% of the metal that forms the least soluble carbonate? C M (2) When 99.9% of the least soluble carbonate has...
Question 52 1 pts AgBr has very low solubility in water. Silver ions form a complex ion with thiosulfate, Ag*(aq) + 25,032(aq) =(Ag(S203)213(aq) If sodium thiosulfate is added to a saturated solution of AgBr in equilibrium with solid AgBr, how will the concentrations of free Ag (aq) and Br"(aq) change? What is the equilibrium expression for the reaction below? Fe2O3(s) + 3CO(g) = 2Fe(s) + 3CO2(g) K - [Fe] [co, (Fe,0][co] K - [Fe20][co [Fe] [co,]
The answer is Option B. PQ-23. AgBr has very low solubility in water. Silver ions form a complex ion with thiosulfate. Ag (aq)+2S,0 (aq) [Ag($,O,), ]r (aq) If sodium thiosulfate is added to a saturated solution of AgBr in equilibrium with solid AgBr, how will the concentrations of free Ag (aq) and Br (aq) change? (A) Ag (aq) decreases, Br (aq) decreases (B) Ag'(aq) decreases, Br (aq) increases (D) Ag'(aq) increases, Br (aq) increases (C) Ag (aq) increases, Br (aq)...
What is the equilibrium Pb2+ concentration when 2.61 L of a 0.103 M lead acetate solution are mixed with 2.82 L of a 0.370 M ammonium bromidesolution? [Pb2+] = M The solubility of AgCl in water is 1.34×10-5 M, but increases in the presence of thiosulfate ion. Calculate the solubility of AgCl when the solid is added to a solution that is 0.520 M in thiosulfate ion. For AgCl, Ksp = 1.80×10-10 and for Ag(S2O3)23-, Kf = 2.00×1013. Solubility = M
What is the solubility of AgBr in 0.05 M NaCN? Ksp(AgBr) = 5.0 x 10-13 and Kr(Ag(CN)2') = 1.0 x 1021 LIS-ntion of drico Coel is always spontaneous, never