59. The [H+] of 0.1 N acetic acid solution is 1.33 × 10-3. The pH of the solution (correct to two decimal places) is .
How to Calculate the pH of a 0.1 N Acetic Acid Solution
In this problem, the hydrogen ion concentration is already provided. Therefore, there is no need to calculate the degree of dissociation or use the acid dissociation constant (Ka). The solution simply requires application of the definition of pH.
Given Data
Hydrogen ion concentration
[H+] = 1.33 × 10−3 mol L−1
Formula Used
The pH of a solution is defined as
pH = −log[H+]
Calculation
Substituting the given hydrogen ion concentration,
pH = −log(1.33 × 10−3)
Using the logarithmic identity
log(a × 10b) = log(a) + b
Therefore,
pH = −(log 1.33 − 3)
Since
log 1.33 = 0.1239
Hence,
pH = −(0.1239 − 3)
pH = 3 − 0.1239
pH = 2.8761
Correct to two decimal places,
pH = 2.88
Why the pH is Less Than 3
Although acetic acid is a weak acid, it still releases hydrogen ions into solution through partial ionization. The given hydrogen ion concentration is greater than 10−3 mol L−1, so the pH must be slightly less than 3. This agrees perfectly with the calculated value of 2.88.
Final Answer
pH = 2.88
Correct Answer: 2.88


