Approx USD 0.50 per 100 grams.
Since Argon has a relative atomic mass of 39.95, and mols = grams / RAM, one could calculate 39.95 / (6.02*10^23) = 6.63 * 10^-23 grams [0.00000000000000000000006634g] for a single argon atom, where 6.022 * 10^23 is roughly Avogadro's constant (the count of atoms in a mole). IF my math is correct.
There are 6 2p electrons in argon.
It is 22.413 litres, approx.
Argon is used in light bulbs and many sources of light
55.64
1.809*10^24 molecules.
Approx 1.5*10^23 atoms.
moles = mass in grams / atomic weight So moles in 37.9 g or argon = 37.9 / 39.948 = 0.948 moles
Approx 3.32*10^23 atoms.
39.95
Argon has an atomic mass of 39.948. Therefore, it has 39.948 grams per mol. Ar(mol) = 14.5 g / 39.948 g/mol Ar(mol) = 0.363 mol
the equation is Xg multiplied by the moles/grams of X = moles of X (the grams cancel leaving you with moles) 607g Ar x 1 mole/ 39.95g = 15.19 moles
1.783 grams/liter x 22.4 liters/mole = 40 grams/mole = Argon
Moles = mass in grams / atomic weight So moles in 15.01 g of Ar = 15.01 / 39.948 = 0.38 moles
39.948 is the atomic number.
Approx USD 0.50 per 100 grams.