Remember
moles = nass(g) / Mr ( Relative Moleculr Mass) .
mass = 120 g
Mr =35.5 x 2 = 71 ( Because chlorine exists as a diatomic gas Cl2).
Hence
moles(Cl2) = 120 /71 = 1.690
number of moles of chlorine present in 120g, convert to moles
there are 6 molecules of chlorine gas
0,5 mol chlorine are obtained.
25 mmol equates to 0.025 mol
I would assume chlorine gas and standard temperature an atmospheric pressure. Using the ideal gas equation. PV = nRT (1 atm)(X volume) = (2.4 moles Cl2)(0.08206 Mol*K/L*atm)(298.15 K) Volume = 59 Liters of chlorine gas --------------------------------------------
The answer is 6,176.10e23 atoms of chlorine.
there are 6 molecules of chlorine gas
The answer is it's atomic mass converted to grams... Chlorine has an atomic mass of 35.45 So 1 mol of chlorine would be 35.45g you have 142g of it, so you divide 142 by 35.45 and get 4.005 moles of chlorine
0,5 mol chlorine are obtained.
the mol mass of chlorine atom is 35,453 g/mol. there are 6,022 141 79 × 1023 atoms in one mol. So one atom of chlorine would weigh around 5.83 x10-23 grams. Chlorine,the molecule, would be twice as heavy since the gas consists out of two chlorine atoms.
the mol mass of chlorine atom is 35,453 g/mol. there are 6,022 141 79 × 1023 atoms in one mol. So one atom of chlorine would weigh around 5.83 x10-23 grams. Chlorine,the molecule, would be twice as heavy since the gas consists out of two chlorine atoms.
2.86
4.005
the approximate answer is 300 g/mol
The weight of chlorine gas can vary depending on the volume and temperature. At standard temperature and pressure (STP), the molar mass of chlorine gas (Cl2) is approximately 70.91 grams/mol. To convert this to pounds, you would divide the molar mass by the conversion factor of 453.592 grams per pound. Therefore, the weight of chlorine gas would be approximately 0.156 pounds per mol at STP.
2.86 (apex)
Since 1 mole is (6.022×1023 molecules)/(mol), so 9.02 x 1023 molecules would be 1.4978... mol
The metal tin. Sn is from the Latin word stannum.