At STP it is about 22.44 liters, but I can never remember this, so the ideal gas equation to back up this answer.
pressure*volume = moles times a constant* temperature in Kelvin
PV = nRT
(1 atm)(volume) = (1 mole O2)(0.08206 L*atm/mol*K)(298.15 K)
Volume = 24.47 Liters ( space occupied )
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any gas at STP conditions takes up 22.4L of space
How much space a mole of gas takes up depends on the type of gas, as different gasses have different volumes. For example, one mole of the gas carbon dioxide takes up 22.4L.
The molar volume is the ratio between molar mass and density.
Space = volume = 22.4 L at STP
22.4 L
There are always ONE mole of gas in 22,4 L gas of any kind (even gaseous mixtures like air) at stp.So 68.5 (L) / 22.4 (L/mole) = 3.06 mole gas in 68.5 L (at STP)
one mole of a substance is described as 6.02x1023 atoms of a substance so if one mole of bromide gas contains 6.02x1023 atoms then bromide gas will contain one mole. your question is a trick question as the gas is stated as containg one mole there fore it contains one mole of bromide atoms
1 mole of gas = 22.7 litre ( at STP) 22.7 Litre of gas = 1 mole 1 litre of gas = 2.27 litre of gas = mole www.examville.com
1 mole of 02 gas has 12,044 281 714.1023 atoms.
A mole of ideal gas at STP takes up 22.4 L.
Gasses spread out to take up as much space as they can but it really depends on the amount of gas.
by working
it takes 1 half of a quart of gas for a 10 ton space ship to reach outer space
500,000,000 barrles of unleaded oil!
Trick question, what kind of gas? Petroleum is not used in space travel as a propellent
A mole of gas is equal to 6.02 x 1023 gas molecules.
Down to something called the Avogadro Constant. It states that 1 mole of ANY gas will always occupy the same amount of space.
There would be 6.022 x 1023 gas paricles in one mole of that gas.
No. Any amount of gas, no matter how little, always takes up as much space as you let it.
There are always ONE mole of gas in 22,4 L gas of any kind (even gaseous mixtures like air) at stp.So 68.5 (L) / 22.4 (L/mole) = 3.06 mole gas in 68.5 L (at STP)
1 mole of gas at STP occupies 22.4 liters.
yes it does