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Test: Buffer Solutions - ACT MCQ


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10 Questions MCQ Test - Test: Buffer Solutions

Test: Buffer Solutions for ACT 2024 is part of ACT preparation. The Test: Buffer Solutions questions and answers have been prepared according to the ACT exam syllabus.The Test: Buffer Solutions MCQs are made for ACT 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Buffer Solutions below.
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Test: Buffer Solutions - Question 1

Which of the following do you think is a correct statement?

Detailed Solution for Test: Buffer Solutions - Question 1

Ammonium hydroxide / ammonium chloride is a basic buffer, henderson hasselbalch equation is given by pH = pKa + log[salt]/[acid] and pH + pOH = 14. So the only correct statement is that boric acid / borax is an acidic buffer.

Test: Buffer Solutions - Question 2

Note that the pKa here is given by 4.752, a buffer is made using 0.8 M acetic acid and 1 M Sodium Acetate what do you think its pH is(log10/8 = 0.097)?

Detailed Solution for Test: Buffer Solutions - Question 2

According to the Henderson hasselbalch equation pH = pKa + log[salt]/[acid], if we substitute the concentration of salt as 1 M and the concentration of acid as 0.8 M, pH = 4.752 + 0.097 = 4.849 is the required answer.

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Test: Buffer Solutions - Question 3

Buffer capacity of a buffer is given as two units for a change in pH by Unity. Then what is the number of moles of acid or base, added in one litre of the solution?

Detailed Solution for Test: Buffer Solutions - Question 3

Buffer capacity is denoted by Φ = number of moles of acid or base added to one litre of the buffer by a change in pH. Here the change in pH is given by 1 and the buffer capacity is given by 2, therefore by substituting, we get that 2 moles of acid or base are added in one litre of the solution.

Test: Buffer Solutions - Question 4

Buffer solution is destroyed when _________.

Detailed Solution for Test: Buffer Solutions - Question 4

If the addition of a strong acid or base changes the pH of a buffer by unit, the buffer solution is assumed to be destroyed that is new pH = pKa ± 1; that means [salt]/[acid] or [acid]/[salt] = 10 or 1/10.

Test: Buffer Solutions - Question 5

Which of the following is not an acidic buffer?

Detailed Solution for Test: Buffer Solutions - Question 5

An acidic buffer has a pH value of less than 7, Acetic Acid-Sodium Acetate and boric acid-borax are examples of acidic buffers, but ammonium Hydroxide-ammonium chloride has a pH of greater than 7, so they are basic buffers.

Test: Buffer Solutions - Question 6

If the pH of a substance is given by 3 then what is the pOH of the substance?

Detailed Solution for Test: Buffer Solutions - Question 6

We know that the sum of the pH and pOH of any substance is equal to 14 that is pH + pOH = 14. So here the pH of a substance is given by 3 the pH of the substance = 14 – 3 = 11, 11 is the required answer.

Test: Buffer Solutions - Question 7

If 0.20 mol/L CH3COOH and 0.50 mol/L CH3COO together make a buffer solution, calculate the pH of the solution if the acid dissociation constant of CH3COOH is 1.8 × 10-5.

Detailed Solution for Test: Buffer Solutions - Question 7

We have henderson-hasselbalch equation as pH = pKa + log[salt]/[acid]. So by substituting the concentrations of silent and acid along with the acid dissociation constant, we get pH = -log[1.8 × 10-5] + log [0.50mol/L]/[0.20mol/L] = 5.14.

Test: Buffer Solutions - Question 8

What is the buffer capacity if 3 moles are added in 5 litres of the solution to change the pH by 2 units?

Detailed Solution for Test: Buffer Solutions - Question 8

Buffer capacity is defined as the number of moles of acid or base added in one litre of the solution to change the pH by Unity. Therefore here buffer capacity = 3/5 divided by 2 = 0.6/2 = 0.3. The buffer capacity is given as 0.3.

Test: Buffer Solutions - Question 9

Which of the following is an equation used to calculate the pH of a buffer solution for an acidic buffer?

Detailed Solution for Test: Buffer Solutions - Question 9

Equation that is used to calculate the pH of a buffer solution for an acidic buffer is pH = pKa + log[salt]/[acid]. This equation is known as henderson-hasselbalch equation, it is used for making of buffer solutions.

Test: Buffer Solutions - Question 10

Carbonic acid and sodium bicarbonate are present in blood as a buffer.

Detailed Solution for Test: Buffer Solutions - Question 10

A solution that resists the change in its PH value by the addition of a small amount of acid or base is called a buffer solution. The buffer system present in the blood is carbonic acid and sodium bicarbonate.

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