The solubility of CuBr ( s ) at equilibrium to be calculated. Concept introduction: The constant K sp is known as solubility product or solubility product constant. It is equilibrium constant and for a given solid, it has a particular value at a given temperature. However, the solubility is equilibrium position. The solubility product expression comprises of product of the ion concentrations.
The solubility of CuBr ( s ) at equilibrium to be calculated. Concept introduction: The constant K sp is known as solubility product or solubility product constant. It is equilibrium constant and for a given solid, it has a particular value at a given temperature. However, the solubility is equilibrium position. The solubility product expression comprises of product of the ion concentrations.
Solution Summary: The author explains the solubility of CuBr(s) at equilibrium to be calculated.
Interpretation: The solubility of
CuBr(s) at equilibrium to be calculated.
Concept introduction: The constant
Ksp is known as solubility product or solubility product constant. It is equilibrium constant and for a given solid, it has a particular value at a given temperature. However, the solubility is equilibrium position. The solubility product expression comprises of product of the ion concentrations.
(b)
Interpretation Introduction
Interpretation: The concentration of
Br− at equilibrium to be calculated.
Concept introduction: The constant
Ksp is known as solubility product or solubility product constant. It is equilibrium constant and for a given solid, it has a particular value at a given temperature. However, the solubility is equilibrium position. The solubility product expression comprises of product of the ion concentrations.
(c)
Interpretation Introduction
Interpretation: The concentration of
CN− at equilibrium to be calculated.
Concept introduction: The constant
Ksp is known as solubility product or solubility product constant. It is equilibrium constant and for a given solid, it has a particular value at a given temperature. However, the solubility is equilibrium position. The solubility product expression comprises of product of the ion concentrations.
2. Write the dissociation equations and expressions for the instability constant of the following complex compounds:
a) K2[Cu(CN)4];
b) [Ag(NH3)2]Cl.
Write the balanced chemical equation associated with the formation constant, Kf , for each complex ion. Include phase symbols.
Ag(CN)2−:
−⇀↽−↽−−⇀
BeF_(4)^(2)−:
−⇀↽−↽−−⇀
Write an equilibrium ionic equation for the formation of complex ion
Ag(CN)2^-