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∙ 7y agoCu(s)
Yessenia Breitenberg
In an electrolytic cell made with nickel and copper electrodes, the nickel electrode will get oxidized. This is because during electrolysis, the cations (Ni2+) at the nickel electrode will lose electrons, resulting in oxidation. Meanwhile, reduction occurs at the copper electrode, where the copper cations (Cu2+) gain electrons.
In an electrolytic cell with nickel and copper electrodes, nickel at the anode gets oxidized, losing electrons to form nickel ions. The copper electrode at the cathode gains electrons and gets reduced, forming copper metal. This process allows for the transfer of nickel ions from the anode to the cathode.
Ni2+
Cu(s)
Ni2+
-0.59 V
In an electrolytic cell with nickel and copper electrodes, nickel at the anode gets oxidized, losing electrons to form nickel ions. The copper electrode at the cathode gains electrons and gets reduced, forming copper metal. This process allows for the transfer of nickel ions from the anode to the cathode.
Ni2+
Cu(s)
Ni2+
Cu(s)
Ni2+
-0.59 V
In a nickel and copper electrolytic cell, nickel would likely be the anode since it typically undergoes oxidation to release electrons into the external circuit. Copper, on the other hand, would be the cathode where reduction reactions occur.
-0.59 V
Ni(s)
In a galvanic cell with silver and nickel electrodes, the nickel electrode will be oxidized. Oxidation occurs at the anode, where electrons are released as nickel atoms lose electrons and form nickel ions. Silver ions from the other electrode will capture these electrons as the reduction reaction occurs at the cathode.
Ni(s)