![]() Because electrons are coming from the anode, the anode is considered the negative electrode of the cell, while the cathode is considered the positive electrode of the cell. The cathode and anode collectively are the electrodes of the voltaic cell. The half cell that contains the oxidation reaction is called the anode, while the half cell that contains the reduction reaction is called the cathode. The apparatus as a whole, which allows useful electrical work to be extracted from a redox reaction, is called a voltaic (galvanic) cell.Įach individual system that contains a half reaction is called a half cell. Useful work can be extracted from the electrons as they transfer from one side to the other - for example, a light bulb can be lit, or a motor can be operated. However, in this case, the electrons transfer through the wire connecting the two half reactions that is, this setup becomes a source of electricity. Figure 14.1 “A Redox Reaction in Which the Two Half Reactions Are Physically Separated.” One application of redox reactions requires that they be physically separated.Įven though the two half reactions are physically separated, a spontaneous redox reaction still occurs. Zinc and zinc ions are on one side of the system, while copper and copper ions are on the other side of the system. Suppose, however, we set up this reaction in a way depicted in Figure 14.1 “A Redox Reaction in Which the Two Half Reactions Are Physically Separated”. If you were to mix zinc metal and copper ions in a container, this reaction would proceed by itself we say that this reaction is spontaneous. Understand how voltaic cells are used as batteries. ![]() Combine half reactions to determine the voltage of a voltaic cell.
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