In the electrolysis of of a aqueous solution, if the cathode used is exclusively a liquid Mercury () — Electrochemistry Chemistry Question
Question
In the electrolysis of $500\text{ mL}$ of a $4.0\text{ M}$ aqueous $NaCl$ solution, if the cathode used is exclusively a liquid Mercury ($Hg$) electrode, what is the maximum mass of sodium amalgam ($NaHg$) formed? (Atomic mass: $Na = 23\text{ g/mol}$, $Hg = 200\text{ g/mol}$)
Answer: D
💡 Solution & Explanation
The $500\text{ mL}$ of $4.0\text{ M}$ $NaCl$ contains $2.0$ moles of $Na^+$. At a mercury cathode, sodium is preferentially discharged due to the high overvoltage of hydrogen on mercury, forming an amalgam: $Na^+ + e^- + Hg \rightarrow NaHg$. Since 2.0 moles of $Na^+$ reduce to form 2.0 moles of $NaHg$, the total mass is $2.0 \times (23 + 200) = 2.0 \times 223 = 446\text{ g}$.
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