When same quantity of electricity is passed through aqueous $AgNO_3$ and $H_2SO_4$ solutions connected in series, $ 5.04 \times 10^{-2} \, g $ of $H_2$ is liberated. What is the mass of silver (in grams) deposited? (E wts. of hydrogen = $ 1.008,$ silver = $108$)
- 54
- 0.54
- 5.4
- 10.8
The Correct Option is C
Solution and Explanation
$=5.04 \times 10^{-2} g$
E wt. of hydrogen $=1.008$
E wt. of silver $=108$
Weight of silver deposited, $w =?$
According to Faraday's second law of electrolysis
$\frac{\text { weight of silver deposited }}{\text { weight of hydrogen liberated }}$
$=\frac{\text { e wt .of silver }}{\text { e wt. of hydrogeon }}$
$\frac{w}{5.04 \times 10^{-2}}=\frac{108}{1.008}$
$W=\frac{108 \times 5.04 \times 10^{-2}}{1.008}$
$=5.4\, g$
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Concepts Used:
Conductance
What is conductance?
Conductance is an expression of the ease with which electric current flows through materials like metals and nonmetals. In equations, an uppercase letter G symbolizes conductance. The standard unit of conductance is siemens (S), formerly known as mho.
What is conductance in electricity?
Conductance in electricity is considered the opposite of resistance (R). Resistance is essentially the amount of friction a component presents to the flow of current.
The conductivity of electrolytic solutions is governed by the following factors:
- Interionic attraction
- Solvation of ions
- The viscosity of the solvent
- Temperature