(a) Interpretation: The expression of K sp for the given sparingly soluble substance is to be stated. Concept Introduction: The solubility product is represented by K sp . The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
(a) Interpretation: The expression of K sp for the given sparingly soluble substance is to be stated. Concept Introduction: The solubility product is represented by K sp . The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Definition Definition State where the components involved in a reversible reaction, namely reactants and product, do not change concentration any further with time. Chemical equilibrium results when the rate of the forward reaction becomes equal to the rate of the reverse reaction.
Chapter 17, Problem 23CR
Interpretation Introduction
(a)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for Cu(OH)2(s) is,
Ksp=[Cu2+][OH−]2.
Explanation of Solution
The given sparingly soluble substance is Cu(OH)2(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of Cu(OH)2(s) is,
Cu(OH)2(s)⇌Cu2+(aq)+2OH−(aq)
According to the law of chemical equilibrium, the equilibrium expression for Cu(OH)2(s) is,
Ksp=[Cu2+][OH−]2
The salt, Cu(OH)2(s) is not included in the equilibrium expression because it is a pure solid.
Interpretation Introduction
(b)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for Co2S3(s) is,
Ksp=[Co3+]2[S2−]3.
Explanation of Solution
The given sparingly soluble substance is Co2S3(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of Co2S3(s) is,
Co2S3(s)⇌2Co3+(aq)+3S2−(aq)
According to the law of chemical equilibrium, the equilibrium expression for Co2S3(s) is,
Ksp=[Co3+]2[S2−]3
The salt, Co2S3(s) is not included in the equilibrium expression because it is a pure solid.
Interpretation Introduction
(c)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for Hg2(OH)2(s) is,
Ksp=[Hg+]2[OH−]2.
Explanation of Solution
The given sparingly soluble substance is Hg2(OH)2(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of Hg2(OH)2(s) is,
Hg2(OH)2(s)⇌2Hg+(aq)+2OH−(aq)
According to the law of chemical equilibrium, the equilibrium expression for Hg2(OH)2(s) is,
Ksp=[Hg+]2[OH−]2
The salt, Hg2(OH)2(s) is not included in the equilibrium expression because it is a pure solid.
Interpretation Introduction
(d)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for CaCO3(s) is,
CaCO3(s)⇌Ca2+(aq)+CO32−(aq).
Explanation of Solution
The given sparingly soluble substance is CaCO3(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of CaCO3(s) is,
CaCO3(s)⇌Ca2+(aq)+CO32−(aq)
According to the law of chemical equilibrium, the equilibrium expression for CaCO3(s) is,
Ksp=[Ca2+][CO32−]
The salt, CaCO3(s) is not included in the equilibrium expression because it is a pure solid.
Interpretation Introduction
(e)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for Ag2CrO4(s) is,
Ksp=[Ag+]2[CrO42−].
Explanation of Solution
The given sparingly soluble substance is Ag2CrO4(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of Ag2CrO4(s) is,
Ag2CrO4(s)⇌2Ag+(aq)+CrO42−(aq)
According to the law of chemical equilibrium, the equilibrium expression for Ag2CrO4(s) is,
Ksp=[Ag+]2[CrO42−]
The salt, Ag2CrO4(s) is not included in the equilibrium expression because it is a pure solid.
Interpretation Introduction
(f)
Interpretation:
The expression of Ksp for the given sparingly soluble substance is to be stated.
Concept Introduction:
The solubility product is represented by Ksp. The solubility product describes the solubility of the solid substance in the solvent at the particular temperature. The high value of solubility product indicates that the substance will be more soluble in water, whereas the low value of solubility product is the indication of the low solubility of the solid in the solvent.
Expert Solution
Answer to Problem 23CR
The expression of Ksp for Hg(OH)2(s) is,
Hg(OH)2(s)⇌Hg2+(aq)+2OH−(aq).
Explanation of Solution
The given sparingly soluble substance is Hg(OH)2(s). On dissolution in water, salts dissociate to form metallic cations and hydroxide anions. The dissociation reaction of Hg(OH)2(s) is,
Hg(OH)2(s)⇌Hg2+(aq)+2OH−(aq)
According to the law of chemical equilibrium, the equilibrium expression for Hg(OH)2(s) is,
Ksp=[Hg2+][OH−]2
The salt, Hg(OH)2(s) is not included in the equilibrium expression because it is a pure solid.
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