Written Response 21. Design an electrochemical cell that will produce a voltage between 3.70 V and 4.20 V. Your answer must include the following: • List the chemical components necessary to construct the cell, specifically indicating the materials for the cathode and anode. • Drawing of the functional electrochemical cell. • The anode, cathode and net reaction including the reduction potential and cell potential difference. • Two qualitative observations that you could see as the cell operates. Your answer.

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Written Response
21. Design an electrochemical cell that will produce a voltage between 3.70 V and 4.20
V. Your answer must include the following:
• List the chemical components necessary to construct the cell, specifically
indicating the materials for the cathode and anode.
• Drawing of the functional electrochemical cell.
• The anode, cathode and net reaction including the reduction potential and cell
potential difference.
• Two qualitative observations that you could see as the cell operates.
Your answer:
Transcribed Image Text:Written Response 21. Design an electrochemical cell that will produce a voltage between 3.70 V and 4.20 V. Your answer must include the following: • List the chemical components necessary to construct the cell, specifically indicating the materials for the cathode and anode. • Drawing of the functional electrochemical cell. • The anode, cathode and net reaction including the reduction potential and cell potential difference. • Two qualitative observations that you could see as the cell operates. Your answer:
V
Salt Bridge
Pt(s)
Fels)
KMnOdaq)
FENO,laq)
11. In order for the cell shown above to produce a voltage of 1.96 V which of the
changes shown below must be made?
O A platinum electrode must be placed in the half-cell on the right.
O The chemical substance in the salt bridge must be KNO3(aq).
O A porous cup must be used.
O The half-cell on the rleft must be acidified.
12. The balanced chemical equation for the operating cell shown above is
O MnO4 (aq) + 8 H*(aq) + 5 Fe?*(aq) – 5 Fe (aq) + Mn²*(aq) +4 H2O()
O MnO2(aq) + 4 H*(aq) + 5 Fe(s) – 5 Fe²*(aq) + Mn²*(aq) + 2 H2O(1I)
5 Fe2-(aq) + Mn²+(aq) + 4 H2O(1) – 2 MnO, (aq) + 16 H*(aq) + 5 Fe(s)
| 2 MnO,-(aq) + 16 H*(aq) + 5 Fe(s) – 5 Fe2*(aq) + 2 Mn²-(aq) + 8 H2O(1)
Transcribed Image Text:V Salt Bridge Pt(s) Fels) KMnOdaq) FENO,laq) 11. In order for the cell shown above to produce a voltage of 1.96 V which of the changes shown below must be made? O A platinum electrode must be placed in the half-cell on the right. O The chemical substance in the salt bridge must be KNO3(aq). O A porous cup must be used. O The half-cell on the rleft must be acidified. 12. The balanced chemical equation for the operating cell shown above is O MnO4 (aq) + 8 H*(aq) + 5 Fe?*(aq) – 5 Fe (aq) + Mn²*(aq) +4 H2O() O MnO2(aq) + 4 H*(aq) + 5 Fe(s) – 5 Fe²*(aq) + Mn²*(aq) + 2 H2O(1I) 5 Fe2-(aq) + Mn²+(aq) + 4 H2O(1) – 2 MnO, (aq) + 16 H*(aq) + 5 Fe(s) | 2 MnO,-(aq) + 16 H*(aq) + 5 Fe(s) – 5 Fe2*(aq) + 2 Mn²-(aq) + 8 H2O(1)
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