The volume of 0.02 M aqueous HBr required to neutralize 10.0 mL of 0.01 M aqueous Ba(OH)2 is ____ . (Assume complete neutralization)
- 2.5 mL
- 5.0 mL
- 7.5 mL
- 10.0 mL
The Correct Option is D
Approach Solution - 1
Neutralization Calculation Problem
For neutralization, the milliequivalents of acid must equal the milliequivalents of base.
Milliequivalents = Molarity × n-factor × Volume
For HBr, n-factor = 1. For Ba(OH)2, n-factor = 2.
Let V be the volume of HBr required.
m.eq. of HBr = m.eq. of Ba(OH)2
\( 0.02 \times 1 \times V = 0.01 \times 2 \times 10 \)
\( 0.02V = 0.2 \)
\( V = \frac{0.2}{0.02} = 10 \text{ mL} \)
Conclusion:
The volume of HBr required is 10 mL.
Approach Solution -2
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