The buffer having pH > pK a value has to be identified. Concept Introduction: Buffer solution: An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it. Buffer capacity: A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity. Buffering capacity = sum additions of acid or base change in pH value If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity. If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

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Answer 1

Question

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

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Answer 2

Question

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

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Answer 3

Question

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

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Answer 4

Question

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

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Answer 5

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 6

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 7

Chapter 19.1, Problem 19.2BFP

(a)

Interpretation Introduction

Interpretation:

The buffer having pH > pKa value has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 8

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 9

(b)

Interpretation Introduction

Interpretation:

From the given buffers, the buffer having capacity of reacting with largest amount of added strong base has to be identified.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 10

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 11

(c)

Interpretation Introduction

Interpretation:

Whether the given conjugate acid-pair suitable for preparing a buffer with a pH of 6.1 or not has to be checked.

Concept Introduction:

Buffer solution:

An aqueous solution consisting mixture of weak base and its conjugate acid or weak acid and its conjugate base. Its pH value changes very small when a small amount of strong base or an acid added to it.

Buffer capacity:

A quantitative measure of the resistance of a buffer solution to pH value change on the addition of hydrogen ion or hydroxide ion is known as buffer capacity.

Buffering capacity = sum additions of acid or basechange in pH value

If u have two or more buffer solutions, then slowly add acid to the each of the solutions and see how much the pH value changes with each addition of acid for each solution. The solution which has the least amount of change in pH value is the best buffer solution and has the highest buffering capacity.

If a buffer has high capacity then it has a great resistance to pH change. When the concentration of weak acid and weak base are high, we get a buffer with high capacity.

Answer 12

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Answer 13

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Answer 14

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Answer 15

Ch. 19.1 - Calculate the pH of a buffer consisting of 0.50 M...Ch. 19.1 - Prob. 19.1BFP Ch. 19.1 - Prob. 19.2AFP Ch. 19.1 - The molecular scenes below show three samples of a...Ch. 19.1 - Prob. 19.3AFP Ch. 19.1 - What is the component concentration ratio, [NH3]/...Ch. 19.2 - A chemist titrates 20.00 mL of 0.2000 M HBrO (Ka =...Ch. 19.2 - For the titration of 30.00 mL of 0.1000 M benzoic...Ch. 19.3 - Write the ion-product expression at equilibrium...Ch. 19.3 - Prob. 19.5BFP

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