According to this, one mole of hydrogen gas at STP will occupy 22.4 L of volume. Therefore, 2 moles of hydrogen gas will occupy a volume twice of 22.4 L i.e. 44.8 L.
What is the volume of 2 grams of h2 gas at STP?
=11.2L at S.T.P.
What is the volume of hydrogen in STP?
We know that at STP one mole of any gas occupies 22.4litres . It means that one mole of hydrogen also occupies 22.4litres of volume at STP. So 10moles of hydrogen gas will occupy =22.4×10=224litres of volume at STP.
What is the volume of 1g H2 at STP?
1 g of Hydrogen Gas (H2) = 0.5 mole of Hydrogen gas since 2 gm. is the molar mass of Dihydrogen! Now by Avogadro’s Law, 1 mole of any gas at STP would occupy 22.7 litres of volume. So the volume He occupies is 11.2 Litre.
What is the volume of 1 gram hydrogen gas at STP?
(1 mole of H2 gas is 2 grams ). So Volume of 1 gms of H2 gas at NTP =22.4/2=11.2 Litres.
What volume does 1 mole of hydrogen occupy at STP?
One mole of any gas at STP will occupy 22.4 liters of volume.
What is the volume of 3 moles of hydrogen gas at STP?
Well, assuming that the hydrogen gas is contained at STP , then the molar volume would be 22.7⋅3=68.1 L . Due to the new conditions of STP , the new molar volume using the ideal gas equation (PV=nRT) comes out as 22.7 L . 3mol ⋅22.7 Lmol =68.1 L .
How do you find volume at STP?
It can be written as: V = nRT/P. “P” is pressure, “V” is volume, n is the number of moles of a gas, “R” is the molar gas constant and “T” is temperature. Record the molar gas constant “R”. R = 8.314472 J/mole x K.
How many liters are in 100 g of H2 at STP?
The answer is 21.5 L .
What volume does 1 mole of hydrogen occupy at RTP?
One mole of any gas has a volume of 24 dm 3 or 24,000 cm 3 at rtp (room temperature and pressure).
What volume does 1.5 moles of hydrogen gas h2 occupy at room temperature and pressure?
Answer: The volume occupied is 33.6 Liters. Explanation: STP conditions are known as standard temperature and pressure. Temperature as 273 K and pressure at 1 atm.
What is volume of 3.5 g of hydrogen at room temperature?
2 g occupies 24 dm3, so scaling up for the volume of hydrogen … 3.5 g will have a volume of 3.5/2 x 24 = 42 dm3 (or 42000 cm3)
What is the mass of 1 mole of hydrogen at NTP?
Answer: Assuming standard temperature and pressure we know that 22.4 litres is 1 mole. 1 mole weighs 2g.