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Definition of K2C2H3O2
K2C2H3O2, also known as Potassium Acetate, is a chemical compound with a molar mass of 98.142 g/mol. The molecule of potassium acetate is made up of two potassium (K) atoms, two carbon (C) atoms, three hydrogen (H) atoms, and two oxygen (O) atoms. In this compound, potassium and acetate form an ion, where the acetate is the negative part and potassium is the positive part. -
Properties of K2C2H3O2
Potassium acetate (K2C2H3O2) is a solid, colorless, and odorless substance under laboratory conditions. The pH of a potassium acetate solution ranges from 7-9, indicating that it has a weak basic nature.
In terms of chemical properties, potassium acetate can react with other substances such as acids, metals, or salts to form new compounds. -
Common reaction equations
Potassium acetate can react with metals like sodium to form hydrogen and potassium salt. It can also react with acids like sulfuric acid to form potassium sulfate and acetic acid. As for non-metals, potassium acetate can react with chlorine to form potassium acetate chloride and hydrogen. Some reactions with salts can also occur but are not common. -
Preparation of K2C2H3O2
In the laboratory, potassium acetate can be prepared from acetic acid and potassium hydroxide. In industry, it is typically produced from acetic acid and potassium carbonate.