
The chemical reaction taking place at the anode of a cell is
(a) Ionisation
(b) Reduction
(c) Oxidation
(d) Hydrolysis
Answer
161.1k+ views
Hint: The electrochemical cells are used in various industries. The electrochemical cell involves the oxidation and reduction reaction i.e., two half-cell reactions occur in two different compartments of the cell.
Complete Step by Step Solution:
The oxidation and reduction of a cell can be explained by the example of a simple galvanic cell. A galvanic cell is also known as an electrochemical cell.
Notation of a galvanic cell:
In a galvanic cell, \[Cu\]undergoes oxidation to \[C{u^{2 + }}\] at the anode and \[A{g^ + }\] to \[Ag\] at the cathode.
In an electrochemical cell notation, the oxidation half-reaction is used first followed by the reduction half-reaction.
Therefore, the oxidation half-reaction at the anode can be represented as below.
\[Cu(s) \to C{u^{2 + }}(aq.) + 2{e^ - }\] (1)
The reduction half-reaction at the cathode can be represented below.
\[A{g^ + }(aq.) + {e^ - } \to Ag(s)\] (2)
Hence, the standard cell notation for a galvanic cell can be shown as below.
\[Cu(s)|C{u^{2 + }}(aq.)||A{g^ + }_{}(aq.)|Ag(s)\] (3)
Flow of current in galvanic cells: We all know that current always flows opposite to the flow of electrons. Therefore, the galvanic cell notation represents that loss of electron or oxidation occurs at the anode. Whereas gain of electron or reduction takes place at the cathode i.e., the electron is flowing from anode to cathode. Therefore, the current will flow opposite to the electron current (from anode to cathode).
From the cell reaction, it is also clear that option C will be the correct answer.
Note: According to the Nernst equation on increasing the temperature, the voltage of the galvanic cell will decrease i.e voltage of the galvanic cell is inversely proportional to the temperature.
Complete Step by Step Solution:
The oxidation and reduction of a cell can be explained by the example of a simple galvanic cell. A galvanic cell is also known as an electrochemical cell.
Notation of a galvanic cell:
In a galvanic cell, \[Cu\]undergoes oxidation to \[C{u^{2 + }}\] at the anode and \[A{g^ + }\] to \[Ag\] at the cathode.
In an electrochemical cell notation, the oxidation half-reaction is used first followed by the reduction half-reaction.
Therefore, the oxidation half-reaction at the anode can be represented as below.
\[Cu(s) \to C{u^{2 + }}(aq.) + 2{e^ - }\] (1)
The reduction half-reaction at the cathode can be represented below.
\[A{g^ + }(aq.) + {e^ - } \to Ag(s)\] (2)
Hence, the standard cell notation for a galvanic cell can be shown as below.
\[Cu(s)|C{u^{2 + }}(aq.)||A{g^ + }_{}(aq.)|Ag(s)\] (3)
Flow of current in galvanic cells: We all know that current always flows opposite to the flow of electrons. Therefore, the galvanic cell notation represents that loss of electron or oxidation occurs at the anode. Whereas gain of electron or reduction takes place at the cathode i.e., the electron is flowing from anode to cathode. Therefore, the current will flow opposite to the electron current (from anode to cathode).
From the cell reaction, it is also clear that option C will be the correct answer.
Note: According to the Nernst equation on increasing the temperature, the voltage of the galvanic cell will decrease i.e voltage of the galvanic cell is inversely proportional to the temperature.
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