mol = mass/Mr mol x Mr = mass Mr of tungsten is 183.84 so 1.2 x 183.84 = 220.61g
1 mol = 197g therefore, 32 mol = 6306 grams
= 0.75 mol x 32 g.mol-1 = 24 g
moles = mass/relative atomic mass 1 = mass/12 mass = 12 x 1 = 12 grams
in order to find the mass of H20 you need the molar mass which is 18.01g/mol and to calculate the mass you just multiply by the number of moles. 18.01 * .20 = 3.60g
mol = mass/Mr mol x Mr = mass Mr of tungsten is 183.84 so 1.2 x 183.84 = 220.61g
1 mol = 197g therefore, 32 mol = 6306 grams
Mole / Molar mass = mass = 0.118 [mol] /169.87 [g mol−1] = 20.05 grams
= 0.75 mol x 32 g.mol-1 = 24 g
moles = mass/relative atomic mass 1 = mass/12 mass = 12 x 1 = 12 grams
The mass in grams of one mole H2SO4 is: 98.079 g/mol (molar mass)The mass in grams of one molecule H2SO4 is (molecule mass):98.079 (g/mol) / 6.02214*10+23(molecules/mol) = 16.286*10-23 g/molecule
The formula is number of moles = mass / molecular mass. So say we have 1 mole of water. We look at the periodic table and molecular mass is 1+1+16 = 18g/mol. 1 mole x 18g/mol is 18 grams.
in order to find the mass of H20 you need the molar mass which is 18.01g/mol and to calculate the mass you just multiply by the number of moles. 18.01 * .20 = 3.60g
This ter is molecular (molar) mass.
1 mol is equivalent to the molar mass of a compound, in grams.
The molar mass is 120.91 g·mol−1 , so 0.500 mol weights (60.445=) 60.5 grams
Molar mass is the mass in grams of 1 mol of subatace, idk if that helps