The generic metal A forms an insoluble salt AB(s) and a complex AC5(aq). The equilibrium concentrations...

Consider the dissolution of AB(s): AB(s)⇌A+(aq)+B−(aq) Le Châtelier's principle tells us that an increase in either...

Consider the dissolution of AB(s): AB(s)⇌A+(aq)+B−(aq) Le Châtelier's principle tells us that an increase in either [A+] or [B−] will shift this equilibrium to the left, reducing the solubility of AB. In other words, AB is more soluble in pure water than in a solution that already contains A+ or B− ions. This is an example of the common-ion effect. The generic metal hydroxide M(OH)2 has Ksp = 1.05×10−18. (NOTE: In this particular problem, because of the magnitude of the...

onsider the insoluble compound nickel(II) carbonate, NiCO3. The nickel ion also forms a complex with cyanide...

onsider the insoluble compound nickel(II) carbonate, NiCO3. The nickel ion also forms a complex with cyanide ions. Write a net ionic equation to show why the solubility of NiCO3(s) increases in the presence of cyanideand calculate the equilibrium constant for this reaction. Solubility product constant data is found in the Chemistry References. For Ni(CN)42-, Kf = 2.0×1031. Use the pull-down boxes to specify states such as (aq) or (s).

Consider an amphoteric hydroxide, M(OH)2(s), where M is a generic metal. M(OH)2(s) <--> M2+(aq) + 2OH-(aq)...

Consider an amphoteric hydroxide, M(OH)2(s), where M is a generic metal. M(OH)2(s) <--> M2+(aq) + 2OH-(aq) Ksp= 3x10-16 M(OH)2(s) +2OH-(aq) <--> [M(OH)4]2-(aq) Kf= 0.05 Estimate the solubility of M(OH)2 in a solution buffered at pH = 7.0, 10.0, and 14.0.

Consider the dissolution of AB(s): AB(s)⇌A+(aq)+B−(aq) Le Châtelier's principle tells us that an increase in either...

Consider the dissolution of AB(s): AB(s)⇌A+(aq)+B−(aq) Le Châtelier's principle tells us that an increase in either [A+] or [B−] will shift this equilibrium to the left, reducing the solubility of AB. In other words, AB is more soluble in pure water than in a solution that already contains A+ or B− ions. This is an example of the common-ion effect. The generic metal hydroxide M(OH)2 has Ksp = 5.85×10−18. Part A What is the solubility of M(OH)2 in pure water?...

The solubility-product constant for Zn(OH)2 is Ksp=3.00×10−16. The formation constant for the hydroxo complex, Zn(OH)42−, is...

The solubility-product constant for Zn(OH)2 is Ksp=3.00×10−16. The formation constant for the hydroxo complex, Zn(OH)42−, is Kf=4.60×1017. A solubility-product constant, Ksp, corresponds to a reaction with the following general format: salt(s)⇌cation(aq)+anion(aq) A formation constant, Kf, corresponds to a reaction with the following general format: metal ion(aq)+Lewis base(aq)⇌complex ion(aq) Part A When Zn(OH)2(s) was added to 1.00 L of a basic solution, 1.20×10−2 mol of the solid dissolved. What is the concentration of OH− in the final solution? Express your answer...

Consider the insoluble compound nickel(II) carbonate , NiCO3 . The nickel ion also forms a complex...

Consider the insoluble compound nickel(II) carbonate , NiCO3 . The nickel ion also forms a complex with cyanide ions . Write a balanced net ionic equation to show why the solubility of NiCO3 (s) increases in the presence of cyanide ions and calculate the equilibrium constant for this reaction. For Ni(CN)42- , Kf = 1.0×1031 . Use the pull-down boxes to specify states such as (aq) or (s). + + K =

Consider the insoluble compound silver iodide , AgI . The silver ion also forms a complex...

Consider the insoluble compound silver iodide , AgI . The silver ion also forms a complex with ammonia . Write a balanced net ionic equation to show why the solubility of AgI (s) increases in the presence of ammonia and calculate the equilibrium constant for this reaction. For Ag(NH3)2+ , Kf = 1.6×107 .

± Solubility of Zinc Hydroxide in Basic Solution The solubility-product constant for Zn(OH)2 is Ksp=3.00×10−16. The...

± Solubility of Zinc Hydroxide in Basic Solution The solubility-product constant for Zn(OH)2 is Ksp=3.00×10−16. The formation constant for the hydroxo complex, Zn(OH)42−, is Kf=4.60×1017. A solubility-product constant, Ksp, corresponds to a reaction with the following general format: salt(s)⇌cation(aq)+anion(aq) A formation constant, Kf, corresponds to a reaction with the following general format: metal ion(aq)+Lewis base(aq)⇌complex ion(aq) Part A When Zn(OH)2(s) was added to 1.00 L of a basic solution, 1.01×10−2 mol of the solid dissolved. What is the concentration of...

Consider the insoluble compound silver iodide , AgI . The silver ion also forms a complex...

Consider the insoluble compound silver iodide , AgI . The silver ion also forms a complex with cyanide ions . Write a balanced net ionic equation to show why the solubility of AgI (s) increases in the presence of cyanide ions and calculate the equilibrium constant for this reaction. For Ag(CN)2- , Kf = 5.6×1018 . Find K

1) At 25 °C, only 0.0670 mol of the generic salt AB is soluble in 1.00...

1) At 25 °C, only 0.0670 mol of the generic salt AB is soluble in 1.00 L of water. What is the ?sp of the salt at 25 °C? AB(s)↽−−⇀A+(aq)+B−(aq) 2) A generic salt, AB3AB3, has a molar mass of 173173 g/mol and a solubility of 1.601.60 g/L at 25 °C. What is the ?spKsp of this salt at 25 °C? AB3(s)↽−−⇀A3+(aq)+3B−(aq) 3)The ?spKsp of manganese(II) hydroxide, Mn(OH)2, is 2.00×10−132.00×10−13. Calculate the solubility of this compound in grams per liter....