(A) The reaction at the cathode is: $M^{2+} + 2e^{-} \rightarrow M$. According to Faraday's law,$2 \times 96500 \ C$ of charge deposits $1 \ mol$ of m

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(A) The reaction at the cathode is: $M^{2+} + 2e^{-} \rightarrow M$. According to Faraday's law,$2 \times 96500 \ C$ of charge deposits $1 \ mol$ of metal $(M)$. Given that $8040 \ C$ deposits $2.644 \ g$ of metal. Therefore,$193000 \ C$ will deposit: $\frac{2.644 \ g}{8040 \ C} \times 193000 \ C = 63.46 \ g$. Thus,the atomic mass of $M$ is $63.46 \ u$.

Class 12 Chemistry Electrochemistry Faraday’s law of electrolysis

Easy

$2.644 \ g$ of metal $(M)$ was deposited when $8040 \ C$ of electricity was passed through molten $MF_2$ salt. What is the atomic mass of $M$ $(F = 96500 \ C \ mol^{-1})$ (in $u$)?

AP EAMCET 2024 All AP EAMCET

A
$63.47$
B
$65.54$
C
$31.74$
D
$61.48$

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Electrochemistry

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Faraday’s law of electrolysis

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$2.644 \ g$ of metal $(M)$ was deposited when $8040 \ C$ of electricity was passed through molten $MF_2$ salt. What is the atomic mass of $M$ $(F = 96500 \ C \ mol^{-1})$ (in $u$)?

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Faraday's laws of electrolysis are related to

Copper sulphate solution is electrolysed between two platinum electrodes. $A$ current is passed until $1.6 \ g$ of oxygen is liberated at the anode. The amount of copper deposited at the cathode during the same period is .............. $g$ [At. mass of $Cu = 63.6$]

The mass of copper deposited from a solution of $CuSO_4$ by passage of $5 \ A$ current for $965 \ s$ is ............ $g$ (Mol. wt. of Copper $= 63.5$)

The amount of silver deposited on passing $2 \ F$ of electricity through an aqueous solution of $AgNO_3$ is: (in $g$)

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