SSCE VCE Chemistry Production of Chemicals Using Electrolysis: An ornament was coated with a me

An ornament was coated with a metal, M, by electrolysis of a solution of the metal ion, M2+ - VCE - SSCE Chemistry - Question 19 - 2011 - Paper 1

Question 19

An ornament was coated with a metal, M, by electrolysis of a solution of the metal ion, M2+. During the electrolysis, a current of 1.50 amperes was applie... show full transcript

Worked Solution & Example Answer:An ornament was coated with a metal, M, by electrolysis of a solution of the metal ion, M2+ - VCE - SSCE Chemistry - Question 19 - 2011 - Paper 1

Step 1

Calculate the Total Charge (Q)

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Answer

The total charge (Q) passed during electrolysis can be calculated using the formula:

$Q = I \times t$

where:

I = current in amperes
t = time in seconds

Substituting the given values: $Q = 1.50 \, \text{A} \times 180 \, \text{s} = 270 \, \text{C}$

Step 2

Calculate the Moles of Electrons (ne)

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Answer

Using Faraday's law, we can calculate the moles of electrons:

$n_e = \frac{Q}{F}$

where:

F (Faraday's constant) = 96500 C/mol

Substituting the values gives:

$n_e = \frac{270 \, \text{C}}{96500 \, \text{C/mol}} \approx 0.00280 \, \text{mol}$

Step 3

Relate Moles of Electrons to Moles of Metal

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Answer

From the electrolysis, we know that:

$n = \frac{n_{metal}}{x}$

where:

nmetal = 0.0014 mol (given)
x = number of electrons transferred per ion reaction (to be determined)
ne = moles of electrons calculated above

Rearranging gives:

$x = \frac{n_{metal}}{n_e} = \frac{0.0014}{0.00280} = 0.5$

Step 4

Final Calculation and Conclusion

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Answer

Since M2+ implies that each ion requires 2 electrons to be reduced to metal, we have:

$x = 2$

Thus, the value of x in Mx+ is 2, making the answer B.

An ornament was coated with a metal, M, by electrolysis of a solution of the metal ion, M<sup>2+</sup> - VCE - SSCE Chemistry - Question 19 - 2011 - Paper 1

Worked Solution & Example Answer:An ornament was coated with a metal, M, by electrolysis of a solution of the metal ion, M<sup>2+</sup> - VCE - SSCE Chemistry - Question 19 - 2011 - Paper 1

Calculate the Total Charge (Q)

Calculate the Moles of Electrons (n<sub>e</sub>)

Relate Moles of Electrons to Moles of Metal

Final Calculation and Conclusion

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