x mg of pure HCl was used to make an aqueous solution. 25.0 mL of 0.1 M Ba(OH)₂ solution is used when the HCl solution was titrated against it. The numerical value of x is_______ × 10⁻¹. (Nearest integer) Given: Molar mass of HCl and Ba(OH)₂ are 36.5 and 171.0 g mol⁻¹ respectively.}

Question

Consider following reaction :
$Fe(OH)_2 + 2e^- \rightarrow Fe(s) + 2OH^-$ , $E^{\circ} = -0.88 \text{ V}$
$AgBr(s) + e^- \rightarrow Ag(s) + Br^-(aq)$ , $E^{\circ} = 0.07 \text{ V}$
Select the correct statement.
(1) $E^{\circ}_{cell} = -0.95 \text{V}$
(2) $E^{\circ}_{cell}$ is an extensive property
(3) $Fe$ is getting reduced
(4) Net cell reaction: $Fe(s) + 2OH^-(aq) + 2AgBr(s) \rightarrow Fe(OH)_2 + 2Ag(s) + 2Br^-(aq)$

Answer 1

Step 1: Understanding the Concept:
In a titration, the equivalents of acid must equal the equivalents of base at the end point.
Step 2: Detailed Explanation:
Equivalents of $Ba(OH)_2 = \text{Molarity} \times \text{Volume (L)} \times n\text{-factor}$ $n\text{-factor for } Ba(OH)_2 = 2$. Equivalents of $Ba(OH)_2 = 0.1 \times 0.025 \times 2 = 0.005 \text{ eq}$. Equivalents of $HCl = \text{Equivalents of } Ba(OH)_2 = 0.005$. Since $n\text{-factor for } HCl = 1$, Moles of $HCl = 0.005 \text{ mol}$.
Step 3: Calculating Mass:
Mass of $HCl = \text{Moles} \times \text{Molar mass}$ Mass $= 0.005 \times 36.5 = 0.1825 \text{ g}$. In mg: $0.1825 \times 1000 = 182.5 \text{ mg}$. To express as $x \times 10^{-1}$: $1825 \times 10^{-1} \text{ mg}$. $x = 1825$.
Step 4: Final Answer:
The value of x is 1825.

x mg of pure HCl was used to make an aqueous solution. 25.0 mL of 0.1 M Ba(OH)₂ solution is used when the HCl solution was titrated against it. The numerical value of x is_______ × 10⁻¹. (Nearest integer) Given: Molar mass of HCl and Ba(OH)₂ are 36.5 and 171.0 g mol⁻¹ respectively.}

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Correct Answer: 1825

Solution and Explanation

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