The K s p value of AgCN should be calculated, where the solubility of AgCN ( s ) in 0.200 M NH 3 ( a q ) is 8 8.8 × 10 − 6 mol L − 1 . Concept introduction: The formation constant , K f , of a complex ion is the equilibrium constant that defines the formation of a complex ion. Solubility product constant is defined as an equilibrium constant for salts which are slightly soluble in an aqueous solution. It is the amount up to which a solute can dissolve in solution. Equilibrium constant, K, for a net ionic equation can calculated with use of solubility of each equilibrium or with use of other equilibrium constants.
The K s p value of AgCN should be calculated, where the solubility of AgCN ( s ) in 0.200 M NH 3 ( a q ) is 8 8.8 × 10 − 6 mol L − 1 . Concept introduction: The formation constant , K f , of a complex ion is the equilibrium constant that defines the formation of a complex ion. Solubility product constant is defined as an equilibrium constant for salts which are slightly soluble in an aqueous solution. It is the amount up to which a solute can dissolve in solution. Equilibrium constant, K, for a net ionic equation can calculated with use of solubility of each equilibrium or with use of other equilibrium constants.
Solution Summary: The author explains the formation constant, K f, of a complex ion, and the equilibrium constant for salts which are slightly soluble in solution.
The Ksp value of AgCN should be calculated, where the solubility of AgCN(s) in 0.200 M NH3(aq) is 8 8.8×10−6mol L−1.
Concept introduction:
The formation constant, Kf, of a complex ion is the equilibrium constant that defines the formation of a complex ion. Solubility product constant is defined as an equilibrium constant for salts which are slightly soluble in an aqueous solution.
It is the amount up to which a solute can dissolve in solution. Equilibrium constant, K, for a net ionic equation can calculated with use of solubility of each equilibrium or with use of other equilibrium constants.
The solubility product constant of calcium sulfate, CaSO4CaSO4, is 7.10×10−57.10×10−5. Its molar mass is 136.1 g/molg/mol. How many grams of calcium sulfate can dissolve in 49.0 LL of pure water?
Write the expression for the solubility-product constant of the ionic compound: AgI
Give the expression for the solubility product constant for AgCl, based on the following dissolution equation: AgCl(s) Ag+(aq) + Cl-(aq).
Chapter 18 Solutions
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