NSC Physical Sciences Electrochemistry: 8.1 A nickel (Ni) rod is placed

8.1 A nickel (Ni) rod is placed in a beaker containing a silver nitrate solution, AgNO3(aq) and a reaction takes place - NSC Physical Sciences - Question 8 - 2016 - Paper 2

Question 8

8.1 A nickel (Ni) rod is placed in a beaker containing a silver nitrate solution, AgNO3(aq) and a reaction takes place. Write down the: 8.1.1 NAME or FORMULA of th... show full transcript

Worked Solution & Example Answer:8.1 A nickel (Ni) rod is placed in a beaker containing a silver nitrate solution, AgNO3(aq) and a reaction takes place - NSC Physical Sciences - Question 8 - 2016 - Paper 2

Step 1

8.1.1 NAME or FORMULA of the electrolyte

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Answer

The electrolyte in this reaction is silver nitrate, which can be written as AgNO₃.

Step 2

8.1.2 Oxidation half-reaction that takes place

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Answer

The oxidation half-reaction involves the nickel rod losing electrons:

ightarrow ext{Ni}^{2+} + 2e^-$$

Step 3

8.1.3 Balanced equation for the net (overall) redox reaction that takes place

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Answer

The overall redox reaction combines the oxidation of nickel and the reduction of silver ions:

ightarrow ext{Ni}^{2+} + 2 ext{Ag}$$

Step 4

8.2.1 Which electrode (Ni or Ag) must be connected to the negative terminal of the voltmeter? Give a reason for the answer.

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Answer

The nickel (Ni) electrode must be connected to the negative terminal of the voltmeter. This is because nickel is a stronger reducing agent than silver and loses electrons more readily, making it the anode and thus negative.

Step 5

8.2.2 Write down the cell notation for the galvanic cell.

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Answer

The cell notation for the galvanic cell including the nickel and silver half-cell can be written as: $ext{Ni(s)} igg| ext{Ni}^{2+}(aq) || ext{Ag}^+(aq) igg| ext{Ag(s)}$

Step 6

8.2.3 Calculate the initial reading on the voltmeter if the cell functions under standard conditions.

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Answer

Under standard conditions, the cell potential is calculated using standard reduction potentials: $E° = E_{reduction} - E_{oxidation} = 0.80 ext{V} - (−0.27 ext{V}) = 1.07 ext{V}$

Step 7

8.2.4 How will the voltmeter reading be affected if the concentration of the silver ions is increased?

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Answer

The voltmeter reading will INCREASE. This is because an increase in the concentration of the silver ions enhances the driving force for the reduction reaction, resulting in a higher cell potential.

8.1 A nickel (Ni) rod is placed in a beaker containing a silver nitrate solution, AgNO3(aq) and a reaction takes place - NSC Physical Sciences - Question 8 - 2016 - Paper 2

Worked Solution & Example Answer:8.1 A nickel (Ni) rod is placed in a beaker containing a silver nitrate solution, AgNO3(aq) and a reaction takes place - NSC Physical Sciences - Question 8 - 2016 - Paper 2

8.1.1 NAME or FORMULA of the electrolyte

8.1.2 Oxidation half-reaction that takes place

8.1.3 Balanced equation for the net (overall) redox reaction that takes place

8.2.1 Which electrode (Ni or Ag) must be connected to the negative terminal of the voltmeter? Give a reason for the answer.

8.2.2 Write down the cell notation for the galvanic cell.

8.2.3 Calculate the initial reading on the voltmeter if the cell functions under standard conditions.

8.2.4 How will the voltmeter reading be affected if the concentration of the silver ions is increased?

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