The molar mass of nickel acetate

The molar mass of nickel acetate (Nickel Acetate) needs to be investigated as its constituent elements. For nickel (Nickel), the chemical symbol is Ni, and its relative atomic mass is about 58.69. Acetate is composed of carbon (C), hydrogen (H), and oxygen (O). The relative atomic mass of carbon is about 12.01, hydrogen is about 1.01, and oxygen is about 16.00.

The chemical formula of acetate is $CH_3COO ^ - $, and monoacetate contains two carbon atoms, three hydrogen atoms, and two oxygen atoms. Then the relative mass of monoacetate is: 2 dollars\ times12.01 + 3\ times1.01 + 2\ times16.00 = 59.05 $.

The formula of nickel acetate is $Ni (CH_3COO) _2 $, which contains one nickel atom and diacetate. Therefore, the molar mass of nickel acetate is: 58.69 dollars + 2\ times59.05 = 58.69 + 118.1 = 176.79g/mol $.

From this point of view, the molar mass of nickel acetate is about 176.79 grams per mole, which is the result of accurately calculating the sum of the relative atomic masses of the elements.