On charging the lead storage battery, the oxidation state of lead changes from to at the anode and from to at the cathode. The values of are respectively:
- A
- B
- C
- D
On charging the lead storage battery, the oxidation state of lead changes from to at the anode and from to at the cathode. The values of are respectively:
Correct answer:B
Standard Method
Given: The question asks for the change in oxidation state of lead during charging of a lead storage battery at the anode and cathode.
Find: The values of .
During charging, the cell reactions are reversed from the discharge process.
At the anode:
Lead in has oxidation state , while elemental has oxidation state . So, at the anode:
At the cathode:
Lead in has oxidation state and in it is . So, at the cathode:
Therefore,
The correct option is B.
Confusing charging with discharging. In charging, the reactions are reversed, so using the discharge direction gives the wrong oxidation-state changes. First identify that the battery is being charged, then reverse the usual discharge reactions.
Assigning the oxidation state of lead in incorrectly. In , the sulfate ion is , so lead must be . Do not treat it as elemental lead.
Using the electrode names from galvanic-cell discharge without checking the charging process. During charging, the external source drives the reverse reactions, so track the given anode and cathode processes carefully before assigning oxidation states.
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