it is a chemical reaction due to the fluoride in the teeth.
it lets of a gas and a mould growth occurs.
In a nuclear reaction, the nucleus of an atom undergoes a change. Common examples would be alpha decay, beta decay, fusion, and fusion. In each of those cases, different elements are formed in the process. This never happens in ordinary chemical reactions. In chemical reactions, it is the electrons that are involved , not the nucleus of the atom.
Floride is added to toothpaste to strengthen the enamel of the tooth. This helps prevent tooth decay, particularly in children.
nuclear decay rates take more time and chemical reaction rates could happen fast.
Radioactive decay is the process by which parts/all of an atom's nucleus break apart or separate, due to instability caused by the interactions between particles. A chemical reaction is the process through which chemical bonds are broken and made, and can be distinuighed from comparing the properties of the reactants and products. It usually requires some input of energy to begin.
Flouride.
nuclear decay rates take more time and chemical reaction rates could happen fast.
No. It is a nuclear reaction - radioactive disintegration.
Toot decay isn't a chemical, it's something that's happening to your teeth.
Fluorides of sodium and potassium
Some chemicals added to prevent tooth decay are: sodium fluoride, potassium fluoride, stannous fluoride, sodium fluoride phosphate, etc.
Nuclear decay rates vary, but chemical reaction rates are constant
it is type of nuclear reaction because nucleus is involve in this type of reaction while in ordinary chemical reaction only valance electron of atoms involve
Nuclear decay involves the contents of the atomic nucleus, the protons and neutrons. Chemical reactions involve the electrons.
Because of the warmer tempatures decay is mostly a chemical reaction and all chemical reactions are accellerated by warmer temps
which element present in our toothpaste protects out tooth from the tooth decay?
Substances that undergo chemical change are called reactants.