. Write the balanced chemical equation describing the dissolving of each of the following sparingly soluble salts in water. Write the expression for K s p for each process. a. NiS(s) c. BaCrO 4 (s) b. CuCO 3 (s) d. Ag 3 PO 4 (s)
. Write the balanced chemical equation describing the dissolving of each of the following sparingly soluble salts in water. Write the expression for K s p for each process. a. NiS(s) c. BaCrO 4 (s) b. CuCO 3 (s) d. Ag 3 PO 4 (s)
. Write the balanced chemical equation describing the dissolving of each of the following sparingly soluble salts in water. Write the expression for Kspfor each process.
a. NiS(s)
c. BaCrO4(s)
b. CuCO3(s)
d. Ag3PO4(s)
Expert Solution
Interpretation Introduction
(a)
Interpretation:
The balanced equation for the reaction describing the dissolution of the given sparingly soluble salt in water is to be stated. The Ksp expression for the given sparingly soluble salt 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 term “solubility product” is only used for those substances that are not completely soluble in water.
Answer to Problem 58QAP
The balanced equation for the reaction describing the dissolving of NiS(s) in water is,
NiS(s)⇌Ni2+(aq)+S2−(aq)
The solubility product for NiS(s) is,
Ksp=[Ni2+][S2−]
Where, Ksp is the solubility product.
Explanation of Solution
The balanced equation for the reaction describing the dissolving of NiS(s) in water is,
NiS(s)⇌Ni2+(aq)+S2−(aq)
The forward reaction shows the dissolution of NiS(s) and backward reaction shows the reformation of the solid.
The solubility product for NiS(s) is,
Ksp=[Ni2+][S2−]
Where, Ksp is the solubility product.
Expert Solution
Interpretation Introduction
(b)
Interpretation:
The balanced equation for the reaction describing the dissolution of the given sparingly soluble salt in water is to be stated. The Ksp expression for the given sparingly soluble salt 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 term “solubility product” is only used for those substances that are not completely soluble in water.
Answer to Problem 58QAP
The balanced equation for the reaction describing the dissolving of CuCO3(s) in water is,
CuCO3(s)⇌Cu2+(aq)+CO32−(aq)
The solubility product for CuCO3(s) is,
Ksp=[Cu2+][CO32−]
Where, Ksp is the solubility product.
Explanation of Solution
The balanced equation for the reaction describing the dissolving of CuCO3(s) in water is,
CuCO3(s)⇌Cu2+(aq)+CO32−(aq)
The forward reaction shows the dissolving of CuCO3(s) and backward reaction shows the reformation of the solid.
The solubility product for CuCO3(s) is,
Ksp=[Cu2+][CO32−]
Where, Ksp is the solubility product.
Expert Solution
Interpretation Introduction
(c)
Interpretation:
The balanced equation for the reaction describing the dissolution of the given sparingly soluble salt in water is to be stated. The Ksp expression for the given sparingly soluble salt 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 term “solubility product” is only used for those substances that are not completely soluble in water.
Answer to Problem 58QAP
The balanced equation for the reaction describing the dissolving of BaCrO4(s) in water is,
BaCrO4(s)⇌Ba2+(aq)+CrO42−(aq)
The solubility product for BaCrO4(s) is,
Ksp=[Ba2+][CrO42−]
Where, Ksp is the solubility product.
Explanation of Solution
The balanced equation for the reaction describing the dissolving of BaCrO4(s) in water is,
BaCrO4(s)⇌Ba2+(aq)+CrO42−(aq)
The forward reaction shows the dissolving of BaCrO4(s) and backward reaction shows the reformation of the solid.
The solubility product for BaCrO4(s) is,
Ksp=[Ba2+][CrO42−]
Where, Ksp is the solubility product.
Expert Solution
Interpretation Introduction
(d)
Interpretation:
The balanced equation for the reaction describing the dissolution of the given sparingly soluble salt in water is to be stated. The Ksp expression for the given sparingly soluble salt 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 term “solubility product” is only used for those substances that are not completely soluble in water.
Answer to Problem 58QAP
The balanced equation for the reaction describing the dissolving of Ag3PO4(s) in water is,
Ag3PO4(s)⇌Ag+(aq)+PO43−(aq)
The solubility product for Ag3PO4(s) is,
Ksp=[Ag+][PO43−]
Where, Ksp is the solubility product.
Explanation of Solution
The balanced equation for the reaction describing the dissolving of Ag3PO4(s) in water is,
Ag3PO4(s)⇌Ag+(aq)+PO43−(aq)
The forward reaction shows the dissolving of Ag3PO4(s) and backward reaction shows the reformation of the solid.
The solubility product for Ag3PO4(s) is,
Ksp=[Ag+][PO43−]
Where, Ksp is the solubility product.
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Curved arrows are used to illustrate the flow of electrons. Using
the provided starting and product structures, draw the curved
electron-pushing arrows for the following reaction or
mechanistic step(s).
Be sure to account for all bond-breaking and bond-making
steps.
Problem 17 of 30
Drawing Arrows
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Convert the following chairs into ring representations:
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Drag To
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Jan 31
3:5
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