4,70 moles of tetraphosphorus decaoxide contain 582,56 g phosphorus.
3,42 moles of phosphorus trichloride have 469,6686 g.
There is said to be about 600 grams of nitrogen in 1.00 pound of ammonium and 130 pounds of phosphorus available in 1.00 pounds of ammonium phosphate.
The atomic number of phosphorus (P) is 15.The atomic weight of P is 30.973762 grams per mole.See the Web Links to below this answer for a periodic table with more information about this element!
The atomic mass of phosphorus is approximately 30.97 grams per mole.
The mass of 4.21 x 10^23 atoms of phosphorus (P) can be calculated by multiplying the number of atoms by the atomic mass of phosphorus. The atomic mass of phosphorus is approximately 31. Therefore, the mass of 4.21 x 10^23 atoms of phosphorus would be around 1.30 x 10^25 grams.
3,42 moles of phosphorus trichloride have 469,6686 g.
To calculate the grams of phosphorus, you need to know the molar mass of phosphorus and then use Avogadro's number to convert from atoms to grams. The molar mass of phosphorus is approximately 30.97 g/mol. Therefore, you can calculate the grams of phosphorus using this information.
The daily requirement of phosphorus is 800. How many grams of phosphorus are needed?
One mole of phosphorus, which has a molar mass of about 31 grams per mole, contains 31 grams of naturally occurring phosphorus.
Quite a few! 392 grams phosphorous (1 mole P/30.97 grams) = 12.7 moles phosphorous ===================
The chemical formula for triphosphorus hexoxide is P4O6.
To find the number of moles in 2.3 grams of phosphorus, you need to divide the mass by the molar mass of phosphorus. The molar mass of phosphorus is approximately 31 grams/mole. So, 2.3 grams / 31 grams/mole ≈ 0.074 moles.
There are 5.10 grams of Phosphorus, which has a molar mass of approximately 30.97 g/mol. This would be approximately 0.165 moles of Phosphorus. There are approximately 6.022 x 10^23 atoms in a mole, so 5.10 grams of Phosphorus would contain approximately 9.92 x 10^22 atoms.
To find the number of moles in 2.3 grams of phosphorus, we divide the mass by the molar mass of phosphorus, which is approximately 30.97 g/mol. So, 2.3 grams / 30.97 g/mol ≈ 0.074 moles.
The density of phosphorus is approximately 1.82 grams per cubic centimeter at room temperature and pressure.
To convert parts per million (ppm) to grams per liter, you first need to convert ppm to milligrams per liter (since 1 ppm is equivalent to 1 mg/L) and then to grams per liter: 10 ppm = 10 mg/L Now, convert milligrams to grams: 10 mg = 0.01 grams Therefore, a liter of water with 10 ppm phosphorus would contain 0.01 grams of phosphorus.
To find the grams of phosphorus in calcium phosphide, first find the molar mass of calcium phosphide (Ca3P2 = 3Ca + 2P = 340.08 + 230.97 = 276.42 g/mol), then calculate the mass percent of phosphorus in calcium phosphide (2P/276.42 g/mol * 100%). Finally, determine the grams of phosphorus in 500 grams of calcium phosphide by multiplying the mass percent by 500 grams.