Some common battery chemistries are:
Zinc-carbon: Zn + 2MnO2 + 2NH4+ --> Mn2O3 + Zn(NH3)22+ + H2O,
Zinc-chloride: Zn + 2MnO2 + ZnCl2 + 2H2O --> 2MnO(OH) + 2Zn(OH)Cl,
Alkaline: 2MnO2 + Zn --> Mn2O3 + ZnO,
Nickel-cadmium: 2NiO(OH) + Cd + 2H2O --> 2Ni(OH)2 + Cd(OH)2,
Lead-acid: PbO2 + 4H3O+ + 4e- --> Pb + 6H2O,
Nickel-metal hydride: Ni(OH)2 + M --> NiO(OH) + MH, where M is some metal,
Nickel-zinc: Zn(OH)2 + H2O + 2NiOOH --> 2Ni(OH)3 + ZnO.
Cooling lowers the rate of the chemical reaction in the batteries.
Cooling lowers the rate of the chemical reaction in the batteries.
what are the physical properties of batteries
Telephone batteries commonly get hot because they are a form of lithium batteries. All batteries contain chemical reactions within them that produce some amount of heat, it is just that lithium batteries produce great amounts of it.
Chemical energy. Batteries also convert chemical energy to electrical energy.
batteries store chemical energy
Some batteries create electricity from a chemical change. Other batteries only store electricity. Those include rechargeable batteries, found in cars, cell phones, tablets, etc.
Batteries works based on chemical reactions.
electrical, chemical, heat, and light energy
Energy that is stored into something and released by a chemical reaction is known as chemical energy. Some examples of these are batteries, gasoline, coal, and food.
Chemical energy.
YES.