-
Definition of Mg3(C2H3O2)4
Mg3(C2H3O2)4, also known as Magnesium Acetate, is a salt of magnesium and acetic acid. In English, it is called Magnesium Acetate. The molar mass of Mg3(C2H3O2)4 is 142.39 grams/mole. The molecular structure consists of 3 magnesium atoms, 12 carbon atoms, 18 hydrogen atoms, and 24 oxygen atoms. The acetate ion group (C2H3O2) neutralizes with the Mg2+ ion to form this salt. -
Properties: Mg3(C2H3O2)4
Mg3(C2H3O2)4 is a solid, colorless, odorless substance with weak basic properties. It can dissolve in water and exists in crystal form under normal conditions.
The chemical properties of Mg3(C2H3O2)4 include its ability to react with acids to form salts and water, and to react with alkali metals to form salts and hydrogen. -
Common chemical equations involving Mg3(C2H3O2)4
The reactions of Mg3(C2H3O2)4 often involve ion exchange reactions. Specifically, these are reactions with acids, reactions with alkali metals, and reactions with other salts. -
Synthesis of Mg3(C2H3O2)4
Mg3(C2H3O2)4 can be synthesized in the laboratory through the reaction between magnesium and acetic acid. On an industrial scale, it is typically produced from magnesium oxide or magnesium carbonate reacting with acetic acid.