The Ksp expression for Ca(OH) 2 should be written. Concept Introduction: Solubility product constant: The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant. The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound. M m X x (s) ⇌ mM n+ (aq) + xX y- (aq) K sp = [M n+ ] m ×[X y- ] x
The Ksp expression for Ca(OH) 2 should be written. Concept Introduction: Solubility product constant: The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant. The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound. M m X x (s) ⇌ mM n+ (aq) + xX y- (aq) K sp = [M n+ ] m ×[X y- ] x
Solution Summary: The author explains that the equilibrium constant of a more soluble ionic compound in water is known as solubility product constant.
The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant.
The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound.
MmXx(s)⇌ mMn+(aq) + xXy-(aq)Ksp = [Mn+]m×[Xy-]x
(b)
Interpretation Introduction
Interpretation:
The balanced net ionic equation for the dissolution of Ag3PO4 and its Ksp expression should be written.
Concept Introduction:
Solubility product constant:
The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant.
The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound.
MmXx(s)⇌ mMn+(aq) + xXy-(aq)Ksp = [Mn+]m×[Xy-]x
(c)
Interpretation Introduction
Interpretation:
The balanced net ionic equation for the dissolution of BaCO3 and its Ksp expression should be written.
Concept Introduction:
Solubility product constant:
The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant.
The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound.
MmXx(s)⇌ mMn+(aq) + xXy-(aq)Ksp = [Mn+]m×[Xy-]x
(d)
Interpretation Introduction
Interpretation:
The balanced net ionic equation for the dissolution of Ca5(PO4)3OH and its Ksp expression should be written.
Concept Introduction:
Solubility product constant:
The equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as solubility product constant.
The equilibrium constant of more soluble ionic compound is given by Ksp and it is expressed by product of multiplication of number of each ion present in the compound rise to the power of number respective ion present in the compound to give a maximum solubility of the compound.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.