The K sp value for 1 .03 × 10 -3 M SrF 2 solution should be calculated. 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 K sp 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 Molar solubility: The solubility of gram mole of compound is given by the molar solubility it is, X = Solubility in gram 1L × 1 mol Molarmass (g)
The K sp value for 1 .03 × 10 -3 M SrF 2 solution should be calculated. 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 K sp 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 Molar solubility: The solubility of gram mole of compound is given by the molar solubility it is, X = Solubility in gram 1L × 1 mol Molarmass (g)
Solution Summary: The author explains that the equilibrium constant of a more soluble ionic compound in water at the higher solubility is known as'solubility product constant'.
The Ksp value for 1.03×10-3 MSrF2 solution should be calculated.
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
Molar solubility:
The solubility of gram mole of compound is given by the molar solubility it is,
X =Solubilityingram1L×1molMolarmass(g)
(b)
Interpretation Introduction
Interpretation:
The Ksp value for 1.05×10-6 MCuI solution should be calculated.
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 Ksp vale for 0.094 g/LMgC2O4 solution should be calculated.
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
Molar solubility:
The solubility of gram mole of compound is given by the molar solubility it is,
X =Solubilityingram1L×1molMolarmass(g)
(d)
Interpretation Introduction
Interpretation:
The Ksp value for 4.95×10-4 g/LZn(CN)2 solution should be calculated.
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
Molar solubility:
The solubility of gram mole of compound is given by the molar solubility it is,
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Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell
Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell