Electricity of a Battery Comes from Oxidation-Reduction Reactions

THE ELECTRICITY OF A BATTERY COMES FROM OXIDATION-REDUCTION REACTIONS 

A common dry-cell battery with a graphite rod immersed in a paste of ammonium chloride, manganese dioxide, and zinc chloride. 

The reduction of ammonium ions in a dry-cell battery produces two gases— ammonia, NH and hydrogen, H2—that need to be removed to avoid a pressure buildup and a potential explosion. Removal is accomplished by having the ammonia and hydrogen react with the zinc chloride and mangane.se dioxide  

Alkaline batteries last a lot longer than dry-cell batteries and give a steadier voltage, but they are expensive. 

The life of a dry-cell battery is relatively short. Oxidation causes the zinc cup to deteriorate, and eventually the contents leak out. Even while the battery is not operating, the zinc corrodes as it reacts with ammonium ions. This zinc corrosion can be inhibited by storing the battery in a refrigerator. As discussed in Chapter 9, chemical reactions slow down with decreasing temperature. Chilling a battery therefore slows down the rate at which the zinc corrodes, which increases the life of the battery. 

---