Ch.17 - Additional Aspects of Aqueous Equilibria

Problem 81b

Previous problem

Next problem

Chapter 17, Problem 81b

(b) What is the most significant difference between the sulfides precipitated in group 2 and those precipitated in group 3?

Verified step by step guidance

Identify the sulfides precipitated in Group 2: CuS, CdS, Bi2S3, PbS, HgS, As2S3, Sb2S3, SnS2.

Identify the sulfides precipitated in Group 3: ZnS, NiS, MnS, CoS.

Note that Group 2 sulfides are precipitated in acidic conditions (H2S and 0.2 M HCl).

Note that Group 3 sulfides are precipitated in basic conditions (NH4)2S at pH = 8.0.

The most significant difference is the pH condition under which the sulfides precipitate: Group 2 sulfides precipitate in acidic conditions, while Group 3 sulfides precipitate in basic conditions.

Verified Solution

Video duration:

This video solution was recommended by our tutors as helpful for the problem above.

Was this helpful?

Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Selective Precipitation

Selective precipitation is a technique used in analytical chemistry to separate ions in a solution based on their solubility. By adding specific reagents, certain ions will form insoluble compounds (precipitates) while others remain dissolved. This method is crucial for distinguishing between different groups of metal cations, as seen in the flowchart, which outlines the sequential addition of reagents to precipitate specific groups.

Group 2 vs. Group 3 Sulfides

The sulfides precipitated in Group 2 are primarily acid-insoluble, meaning they do not dissolve in acidic conditions, while those in Group 3 are base-insoluble, indicating they remain undissolved in basic conditions. This distinction is significant because it affects the conditions under which these sulfides can be separated and identified during qualitative analysis, as shown in the flowchart.

Precipitation Reagents

Precipitation reagents are chemicals added to a solution to induce the formation of a solid precipitate from dissolved ions. In the context of the flowchart, reagents like H2S and (NH4)2S are used to selectively precipitate sulfides from different groups of metal cations. Understanding the role of these reagents is essential for effectively separating and identifying metal ions in a mixture.

Recommended video:

Guided course

01:53

Selective Precipitation

Previous problem

Next problem

Related Practice

Textbook Question

In the course of various qualitative analysis procedures, the following mixtures are encountered: (a) Zn²⁺ and Cd²⁺. Suggest how each mixture might be separated.

410

views

Textbook Question

In the course of various qualitative analysis procedures, the following mixtures are encountered: (d) Ag⁺ and Mn²⁺. Suggest how each mixture might be separated.

358

views

Textbook Question

Suggest how the cations in each of the following solution mixtures can be separated: (c) Pb2 + and Al3 +.

465

views

Textbook Question

Derive an equation similar to the Henderson–Hasselbalch equation relating the pOH of a buffer to the pKb of its base component.

909

views

Textbook Question

Rainwater is acidic because CO21g2 dissolves in the water, creating carbonic acid, H2CO3. If the rainwater is too acidic, it will react with limestone and seashells (which are principally made of calcium carbonate, CaCO3). Calculate the concentrations of carbonic acid, bicarbonate ion 1HCO3-2 and carbonate ion 1CO32 - 2 that are in a raindrop that has a pH of 5.60, assuming that the sum of all three species in the raindrop is 1.0 * 10-5 M.

786

views

Open Question

Furoic acid (HC5H3O3) has a Ka value of 6.76 × 10^-4 at 25 _x001F_C. Calculate the pH at 25 _x001F_C of (a) a solution formed by adding 25.0 g of furoic acid and 30.0 g of sodium furoate (NaC5H3O3) to enough water to form 0.250 L of solution; (b) a solution formed by mixing 30.0 mL of 0.250 M HC5H3O3 and 20.0 mL of 0.22 M NaC5H3O3 and diluting the total volume to 125 mL; (c) a solution prepared by adding 50.0 mL of 1.65 M NaOH solution to 0.500 L of 0.0850 M HC5H3O3.