1 mole/ 107.87
1 liter/ 4.815 g
In terms of metric conversion, 480mg of salt is equal to 0.480g of salt. In terms of molar conversion, 480mg of salt is equal to approximately 0.0082 moles.
It can be used as a conversion factor.
107.8682 with varying amounts close to that. FYI molar mass : atomic mass.
the molar mass 1 mole = xxx grams based on the chemical formula Ex: CO2 ... the atomic mass of carbon is 12, and the atomic mass of oxygen is 16 but the molar mass = (1 x 12) + (2 x 16) because of the number of atoms of each in the formula. molar mass = 44. so 1 mole = 44 grams ... turn this fact into a conversion factor. 44g / 1mole is the conversion factor to convert moles of carbon dioxide into mass (grams). Each substance will have a different molar mass, so a different conversion factor.
The molar mass of silver nitrate is 169,87 g.2 x 169,87 = 339,74 g
In terms of metric conversion, 480mg of salt is equal to 0.480g of salt. In terms of molar conversion, 480mg of salt is equal to approximately 0.0082 moles.
It can be used as a conversion factor.
the molar mass is 295.81g/mol
yes
107.8682 with varying amounts close to that. FYI molar mass : atomic mass.
To make You need the molar mass of Silver nitrate to make 0.1 Silver Nitrate.
Each compound has a specific molar mass; no conversion.
the molar mass 1 mole = xxx grams based on the chemical formula Ex: CO2 ... the atomic mass of carbon is 12, and the atomic mass of oxygen is 16 but the molar mass = (1 x 12) + (2 x 16) because of the number of atoms of each in the formula. molar mass = 44. so 1 mole = 44 grams ... turn this fact into a conversion factor. 44g / 1mole is the conversion factor to convert moles of carbon dioxide into mass (grams). Each substance will have a different molar mass, so a different conversion factor.
The molar mass of silver nitrate is 169,87 g.2 x 169,87 = 339,74 g
Each element has a different molar mass and Molarity, using stoichiometry the conversion of molar mass can explain why.
Silver Nitrate.
Yes - it allows one to convert the stoichiometric ratios into mass ratios.