The density of hydrogen sulfide is 1.363 g/cm3.
The answer is 0.0899 kg/m3 at STP
dvdv
Argon has a density of 1.78 g/L at STP. One gallon =3.785 liters. So 1.78 g * 3.785 = 6.74 grams per gallon.
Density is mass per volume. Density of gas is mostly the same in mol/volume. The molecular mass play large role in the different of density. Weak intermolecular force and interaction among different species of gases may give extra additional to the different in density of mix gas but at very small fraction.
Hydrogen? You need the conditions, pressure and temperature, of the gas. 1 mole of the gas occupies 22.4 liters at STP. The molar mass of hydrogen is 2.0 g/ mole. So the density at STP is 2.0 / 22.4 = 0.0893 g/liter. At any other pressure and temperature you can use the ideal gas law to find the volume of one mole and then find the density.
No, fluorine is a diatomic gas at STP.
Burning of H2S produce SO2 and water.SO2 is the toxic gas.
The volume is 22,1 L.
Ar (argon)
The Density of Neon at STP is: a 0.89994 mg/cm-3.
STP stands for Standard Temperature and Pressure. At STP, the pressure of natural gas is 1 atm, and 1 mole of gas takes up 22.4 liters.
Chlorine is a gas at STP. Density is 71/22.4 = 3.17 g/L
To find it's density
1.799 kg/m3 at 25 Co .
Density of H2S @ 150C and 1 ATM = 1.45 gr. / liter1 liter = 0.0355 cubic feetMass = density x volumeMass H2S = 1.45 gr. / lt x [1 lt / 0.0355 cubic feet / lt]Mass H2S = 40.8 gr @ 15C and 1 ATM = 1.45 gr. / literCesar Hdz.At STP (0 deg. C / 14.7 lbs per sq. inch), 1 cubic foot of H2S weighs 43.054 grams.HFL
Argon has a density of 1.78 g/L at STP. One gallon =3.785 liters. So 1.78 g * 3.785 = 6.74 grams per gallon.
Density is mass per volume. Density of gas is mostly the same in mol/volume. The molecular mass play large role in the different of density. Weak intermolecular force and interaction among different species of gases may give extra additional to the different in density of mix gas but at very small fraction.
So2 + h20
At Standard Temperature and Pressure (STP), which is defined as 0 degrees Celsius (273.15 Kelvin) and 1 atmosphere pressure, the molar volume of an ideal gas is approximately 22.4 liters/mol. The molar mass of nitrogen gas (Nā) is approximately 28.02 grams/mol. To calculate the density (D) of nitrogen gas at STP, you can use the ideal gas law: ļæ½ = Molar mass Molar volume at STP D= Molar volume at STP Molar mass ā ļæ½ = 28.02 ā g/mol 22.4 ā L/mol D= 22.4L/mol 28.02g/mol ā ļæ½ ā 1.25 ā g/L Dā1.25g/L Therefore, the density of nitrogen gas at STP is approximately 1.25 grams per liter.