What volume is occupied by 5 moles of any gas at STP?

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What is the volume of 5 moles of ideal gas at STP conditions?

At STP, gases have a volume of 22.4 L per mole.

What volume is occupied by 5 moles of oxygen gas at STP?

Thus, one can multiply and divide quantities by “m”. At STP, one mol of Ideal Gas occupies 22.4 L and one mmol of Ideal Gas occupies 22.4 mL.

How many liters will 5.0 moles of hydrogen gas occupy at STP?

So, you know that under STP conditions for pressure and temperature, 1 mole of any ideal gas will occupy 22.4 L .

What is the volume of 10.0 g CO2 gas at STP?

Volume of 1 mol of an ideal gas at STP is 22.71 L/mol. But according to Avogadro Law, volume, V is, V = kn Where k is constant and n is the number of moles. Therefore, volume of 10 g of the CO2 is 5.16 L.

What is the volume of 240 g of so at STP?

Answer: The volume occupied by the given amount of sulfur dioxide will be 84 L.

What volume is occupied by 1.5 moles of cl2 at STP?

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.

THIS IS AMAZING:  Your question: How do you calculate the number of molecules in a mole?

What volume is occupied by 2 moles of gas at STP?

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.

How many grams is 5 liters?

How Many Grams are in a Liter?

Volume in Liters: Weight in Grams of:
Water Cooking Oil
5 l 5,000 g 4,400 g
6 l 6,000 g 5,280 g
7 l 7,000 g 6,160 g